Alex
1c0ba930b8
This PR should be merged after the new website is deployed. - [x] Rename files - [x] Add front matter section to all `.md` files in the book (necessary for Zola) - [x] Change all internal links to use Zola's linking system that checks broken links - [x] Some updates to documentation contents and organization Co-authored-by: Alex Auvolat <alex@adnab.me> Reviewed-on: #213 Co-authored-by: Alex <alex@adnab.me> Co-committed-by: Alex <alex@adnab.me>
108 lines
4.8 KiB
Markdown
108 lines
4.8 KiB
Markdown
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title = "Migrating from 0.3 to 0.4"
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weight = 20
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**Migrating from 0.3 to 0.4 is unsupported. This document is only intended to
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document the process internally for the Deuxfleurs cluster where we have to do
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it. Do not try it yourself, you will lose your data and we will not help you.**
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**Migrating from 0.2 to 0.4 will break everything for sure. Never try it.**
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The internal data format of Garage hasn't changed much between 0.3 and 0.4.
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The Sled database is still the same, and the data directory as well.
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The following has changed, all in the meta directory:
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- `node_id` in 0.3 contains the identifier of the current node. In 0.4, this
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file does nothing and should be deleted. It is replaced by `node_key` (the
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secret key) and `node_key.pub` (the associated public key). A node's
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identifier on the ring is its public key.
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- `peer_info` in 0.3 contains the list of peers saved automatically by Garage.
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The format has changed and it is now stored in `peer_list` (`peer_info`
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should be deleted).
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When migrating, all node identifiers will change. This also means that the
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affectation of data partitions on the ring will change, and lots of data will
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have to be rebalanced.
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- If your cluster has only 3 nodes, all nodes store everything, therefore nothing has to be rebalanced.
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- If your cluster has only 4 nodes, for any partition there will always be at
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least 2 nodes that stored data before that still store it after. Therefore
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the migration should in theory be transparent and Garage should continue to
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work during the rebalance.
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- If your cluster has 5 or more nodes, data will disappear during the
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migration. Do not migrate (fortunately we don't have this scenario at
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Deuxfleurs), or if you do, make Garage unavailable until things stabilize
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(disable web and api access).
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The migration steps are as follows:
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1. Prepare a new configuration file for 0.4. For each node, point to the same
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meta and data directories as Garage 0.3. Basically, the things that change
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are the following:
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- No more `rpc_tls` section
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- You have to generate a shared `rpc_secret` and put it in all config files
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- `bootstrap_peers` has a different syntax as it has to contain node keys.
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Leave it empty and use `garage node-id` and `garage node connect` instead (new features of 0.4)
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- put the publicly accessible RPC address of your node in `rpc_public_addr` if possible (its optional but recommended)
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- If you are using Consul, change the `consul_service_name` to NOT be the name advertised by Nomad.
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Now Garage is responsible for advertising its own service itself.
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2. Disable api and web access for some time (Garage does not support disabling
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these endpoints but you can change the port number or stop your reverse
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proxy for instance).
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3. Do `garage repair -a --yes tables` and `garage repair -a --yes blocks`,
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check the logs and check that all data seems to be synced correctly between
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nodes.
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4. Save somewhere the output of `garage status`. We will need this to remember
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how to reconfigure nodes in 0.4.
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5. Turn off Garage 0.3
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6. Backup metadata folders if you can (i.e. if you have space to do it
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somewhere). Backuping data folders could also be usefull but that's much
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harder to do. If your filesystem supports snapshots, this could be a good
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time to use them.
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7. Turn on Garage 0.4
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8. At this point, running `garage status` should indicate that all nodes of the
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previous cluster are "unavailable". The nodes have new identifiers that
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should appear in healthy nodes once they can talk to one another (use
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`garage node connect` if necessary`). They should have NO ROLE ASSIGNED at
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the moment.
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9. Prepare a script with several `garage node configure` commands that replace
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each of the v0.3 node ID with the corresponding v0.4 node ID, with the same
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zone/tag/capacity. For example if your node `drosera` had identifier `c24e`
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before and now has identifier `789a`, and it was configured with capacity
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`2` in zone `dc1`, put the following command in your script:
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```bash
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garage node configure 789a -z dc1 -c 2 -t drosera --replace c24e
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```
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10. Run your reconfiguration script. Check that the new output of `garage
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status` contains the correct node IDs with the correct values for capacity
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and zone. Old nodes should no longer be mentioned.
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11. If your cluster has 4 nodes or less, and you are feeling adventurous, you
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can reenable Web and API access now. Things will probably work.
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12. Garage might already be resyncing stuff. Issue a `garage repair -a --yes
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tables` and `garage repair -a --yes blocks` to force it to do so.
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13. Wait for resyncing activity to stop in the logs. Do steps 12 and 13 two or
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three times, until you see that when you issue the repair commands, nothing
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gets resynced any longer.
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14. Your upgraded cluster should be in a working state. Re-enable API and Web
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access and check that everything went well.
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