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310 lines
12 KiB
Markdown
310 lines
12 KiB
Markdown
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# FoundationDB {#module-services-foundationdb}
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*Source:* {file}`modules/services/databases/foundationdb.nix`
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*Upstream documentation:* <https://apple.github.io/foundationdb/>
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*Maintainer:* Austin Seipp
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*Available version(s):* 5.1.x, 5.2.x, 6.0.x
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FoundationDB (or "FDB") is an open source, distributed, transactional
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key-value store.
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## Configuring and basic setup {#module-services-foundationdb-configuring}
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To enable FoundationDB, add the following to your
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{file}`configuration.nix`:
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```
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services.foundationdb.enable = true;
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services.foundationdb.package = pkgs.foundationdb52; # FoundationDB 5.2.x
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```
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The {option}`services.foundationdb.package` option is required, and
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must always be specified. Due to the fact FoundationDB network protocols and
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on-disk storage formats may change between (major) versions, and upgrades
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must be explicitly handled by the user, you must always manually specify
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this yourself so that the NixOS module will use the proper version. Note
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that minor, bugfix releases are always compatible.
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After running {command}`nixos-rebuild`, you can verify whether
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FoundationDB is running by executing {command}`fdbcli` (which is
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added to {option}`environment.systemPackages`):
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```ShellSession
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$ sudo -u foundationdb fdbcli
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Using cluster file `/etc/foundationdb/fdb.cluster'.
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The database is available.
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Welcome to the fdbcli. For help, type `help'.
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fdb> status
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Using cluster file `/etc/foundationdb/fdb.cluster'.
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Configuration:
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Redundancy mode - single
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Storage engine - memory
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Coordinators - 1
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Cluster:
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FoundationDB processes - 1
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Machines - 1
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Memory availability - 5.4 GB per process on machine with least available
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Fault Tolerance - 0 machines
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Server time - 04/20/18 15:21:14
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...
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fdb>
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```
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You can also write programs using the available client libraries. For
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example, the following Python program can be run in order to grab the
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cluster status, as a quick example. (This example uses
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{command}`nix-shell` shebang support to automatically supply the
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necessary Python modules).
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```ShellSession
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a@link> cat fdb-status.py
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#! /usr/bin/env nix-shell
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#! nix-shell -i python -p python pythonPackages.foundationdb52
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import fdb
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import json
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def main():
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fdb.api_version(520)
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db = fdb.open()
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@fdb.transactional
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def get_status(tr):
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return str(tr['\xff\xff/status/json'])
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obj = json.loads(get_status(db))
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print('FoundationDB available: %s' % obj['client']['database_status']['available'])
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if __name__ == "__main__":
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main()
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a@link> chmod +x fdb-status.py
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a@link> ./fdb-status.py
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FoundationDB available: True
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a@link>
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```
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FoundationDB is run under the {command}`foundationdb` user and group
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by default, but this may be changed in the NixOS configuration. The systemd
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unit {command}`foundationdb.service` controls the
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{command}`fdbmonitor` process.
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By default, the NixOS module for FoundationDB creates a single SSD-storage
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based database for development and basic usage. This storage engine is
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designed for SSDs and will perform poorly on HDDs; however it can handle far
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more data than the alternative "memory" engine and is a better default
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choice for most deployments. (Note that you can change the storage backend
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on-the-fly for a given FoundationDB cluster using
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{command}`fdbcli`.)
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Furthermore, only 1 server process and 1 backup agent are started in the
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default configuration. See below for more on scaling to increase this.
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FoundationDB stores all data for all server processes under
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{file}`/var/lib/foundationdb`. You can override this using
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{option}`services.foundationdb.dataDir`, e.g.
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```
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services.foundationdb.dataDir = "/data/fdb";
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```
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Similarly, logs are stored under {file}`/var/log/foundationdb`
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by default, and there is a corresponding
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{option}`services.foundationdb.logDir` as well.
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## Scaling processes and backup agents {#module-services-foundationdb-scaling}
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Scaling the number of server processes is quite easy; simply specify
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{option}`services.foundationdb.serverProcesses` to be the number of
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FoundationDB worker processes that should be started on the machine.
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FoundationDB worker processes typically require 4GB of RAM per-process at
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minimum for good performance, so this option is set to 1 by default since
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the maximum amount of RAM is unknown. You're advised to abide by this
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restriction, so pick a number of processes so that each has 4GB or more.
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A similar option exists in order to scale backup agent processes,
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{option}`services.foundationdb.backupProcesses`. Backup agents are
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not as performance/RAM sensitive, so feel free to experiment with the number
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of available backup processes.
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## Clustering {#module-services-foundationdb-clustering}
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FoundationDB on NixOS works similarly to other Linux systems, so this
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section will be brief. Please refer to the full FoundationDB documentation
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for more on clustering.
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FoundationDB organizes clusters using a set of
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*coordinators*, which are just specially-designated
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worker processes. By default, every installation of FoundationDB on NixOS
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will start as its own individual cluster, with a single coordinator: the
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first worker process on {command}`localhost`.
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Coordinators are specified globally using the
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{command}`/etc/foundationdb/fdb.cluster` file, which all servers and
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client applications will use to find and join coordinators. Note that this
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file *can not* be managed by NixOS so easily:
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FoundationDB is designed so that it will rewrite the file at runtime for all
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clients and nodes when cluster coordinators change, with clients
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transparently handling this without intervention. It is fundamentally a
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mutable file, and you should not try to manage it in any way in NixOS.
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When dealing with a cluster, there are two main things you want to do:
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- Add a node to the cluster for storage/compute.
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- Promote an ordinary worker to a coordinator.
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A node must already be a member of the cluster in order to properly be
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promoted to a coordinator, so you must always add it first if you wish to
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promote it.
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To add a machine to a FoundationDB cluster:
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- Choose one of the servers to start as the initial coordinator.
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- Copy the {command}`/etc/foundationdb/fdb.cluster` file from this
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server to all the other servers. Restart FoundationDB on all of these
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other servers, so they join the cluster.
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- All of these servers are now connected and working together in the
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cluster, under the chosen coordinator.
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At this point, you can add as many nodes as you want by just repeating the
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above steps. By default there will still be a single coordinator: you can
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use {command}`fdbcli` to change this and add new coordinators.
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As a convenience, FoundationDB can automatically assign coordinators based
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on the redundancy mode you wish to achieve for the cluster. Once all the
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nodes have been joined, simply set the replication policy, and then issue
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the {command}`coordinators auto` command
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For example, assuming we have 3 nodes available, we can enable double
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redundancy mode, then auto-select coordinators. For double redundancy, 3
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coordinators is ideal: therefore FoundationDB will make
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*every* node a coordinator automatically:
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```ShellSession
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fdbcli> configure double ssd
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fdbcli> coordinators auto
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```
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This will transparently update all the servers within seconds, and
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appropriately rewrite the {command}`fdb.cluster` file, as well as
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informing all client processes to do the same.
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## Client connectivity {#module-services-foundationdb-connectivity}
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By default, all clients must use the current {command}`fdb.cluster`
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file to access a given FoundationDB cluster. This file is located by default
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in {command}`/etc/foundationdb/fdb.cluster` on all machines with the
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FoundationDB service enabled, so you may copy the active one from your
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cluster to a new node in order to connect, if it is not part of the cluster.
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## Client authorization and TLS {#module-services-foundationdb-authorization}
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By default, any user who can connect to a FoundationDB process with the
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correct cluster configuration can access anything. FoundationDB uses a
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pluggable design to transport security, and out of the box it supports a
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LibreSSL-based plugin for TLS support. This plugin not only does in-flight
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encryption, but also performs client authorization based on the given
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endpoint's certificate chain. For example, a FoundationDB server may be
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configured to only accept client connections over TLS, where the client TLS
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certificate is from organization *Acme Co* in the
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*Research and Development* unit.
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Configuring TLS with FoundationDB is done using the
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{option}`services.foundationdb.tls` options in order to control the
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peer verification string, as well as the certificate and its private key.
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Note that the certificate and its private key must be accessible to the
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FoundationDB user account that the server runs under. These files are also
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NOT managed by NixOS, as putting them into the store may reveal private
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information.
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After you have a key and certificate file in place, it is not enough to
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simply set the NixOS module options -- you must also configure the
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{command}`fdb.cluster` file to specify that a given set of
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coordinators use TLS. This is as simple as adding the suffix
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{command}`:tls` to your cluster coordinator configuration, after the
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port number. For example, assuming you have a coordinator on localhost with
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the default configuration, simply specifying:
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```
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XXXXXX:XXXXXX@127.0.0.1:4500:tls
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```
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will configure all clients and server processes to use TLS from now on.
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## Backups and Disaster Recovery {#module-services-foundationdb-disaster-recovery}
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The usual rules for doing FoundationDB backups apply on NixOS as written in
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the FoundationDB manual. However, one important difference is the security
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profile for NixOS: by default, the {command}`foundationdb` systemd
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unit uses *Linux namespaces* to restrict write access to
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the system, except for the log directory, data directory, and the
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{command}`/etc/foundationdb/` directory. This is enforced by default
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and cannot be disabled.
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However, a side effect of this is that the {command}`fdbbackup`
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command doesn't work properly for local filesystem backups: FoundationDB
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uses a server process alongside the database processes to perform backups
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and copy the backups to the filesystem. As a result, this process is put
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under the restricted namespaces above: the backup process can only write to
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a limited number of paths.
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In order to allow flexible backup locations on local disks, the FoundationDB
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NixOS module supports a
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{option}`services.foundationdb.extraReadWritePaths` option. This
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option takes a list of paths, and adds them to the systemd unit, allowing
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the processes inside the service to write (and read) the specified
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directories.
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For example, to create backups in {command}`/opt/fdb-backups`, first
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set up the paths in the module options:
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```
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services.foundationdb.extraReadWritePaths = [ "/opt/fdb-backups" ];
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```
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Restart the FoundationDB service, and it will now be able to write to this
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directory (even if it does not yet exist.) Note: this path
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*must* exist before restarting the unit. Otherwise,
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systemd will not include it in the private FoundationDB namespace (and it
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will not add it dynamically at runtime).
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You can now perform a backup:
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```ShellSession
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$ sudo -u foundationdb fdbbackup start -t default -d file:///opt/fdb-backups
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$ sudo -u foundationdb fdbbackup status -t default
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```
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## Known limitations {#module-services-foundationdb-limitations}
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The FoundationDB setup for NixOS should currently be considered beta.
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FoundationDB is not new software, but the NixOS compilation and integration
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has only undergone fairly basic testing of all the available functionality.
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- There is no way to specify individual parameters for individual
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{command}`fdbserver` processes. Currently, all server processes
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inherit all the global {command}`fdbmonitor` settings.
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- Ruby bindings are not currently installed.
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- Go bindings are not currently installed.
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## Options {#module-services-foundationdb-options}
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NixOS's FoundationDB module allows you to configure all of the most relevant
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configuration options for {command}`fdbmonitor`, matching it quite
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closely. A complete list of options for the FoundationDB module may be found
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[here](#opt-services.foundationdb.enable). You should
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also read the FoundationDB documentation as well.
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## Full documentation {#module-services-foundationdb-full-docs}
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FoundationDB is a complex piece of software, and requires careful
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administration to properly use. Full documentation for administration can be
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found here: <https://apple.github.io/foundationdb/>.
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