View Source Multi-node
At the moment, you can run nostrum in highly available mode across multiple nodes via OTP's distributed application support, see below. Support for properly distributing nostrum across multiple nodes and using them as one big entity is not supported (yet).
As a general rule: if you are running distributed Erlang over the internet, make sure to secure it with a solid VPN and / or by using TLS for Erlang distribution.
High availability
Running using OTP's distributed
applications
allows us to connect multiple nodes together and have your app and nostrum
rescheduled on another node when things go south. Let's see how we can configure
it. In this example, we will make use of three nodes, and all of them will be
run from your bot's directory. The only difference on their command line is the
--sname / --name you specify. We'll use --snames for testing here, for
proper fault tolerance you will want to use multiple hosts with --name. Let's
assume we name our nodes joe, robert, and mike.
Bundling nostrum with our app
We want to colocate nostrum with our app to allow it to move around as our
application is moved around. For this, utilize OTP's included
applications
feature to include nostrum into our supervision tree. You also need to
explicitly include nostrum's dependencies to ensure they are started, as the
regular nostrum application startup won't handle it for you. This can be done by
changing your application definition in mix.exs as follows:
def application do
[
mod: {MyBot.Application, []},
included_applications: [:nostrum],
# You can see this with `mix app.tree nostrum`
extra_applications: [:certifi, :gun, :inets, :jason, :kcl, :mime]
# ...
]
endYou also need to set runtime: false for :nostrum itself in your
dependencies, and any dependencies of your app that depend on :nostrum, such
as command frameworks like :nosedrum:
defp deps do
[
{:nostrum, "~> 0.8", runtime: false},
# {:nosedrum, "~> 0.6", runtime: false},
]
endYou now need to add nostrum to your applications' children to start it as part of your app:
def start(type, args) do
children = [
Nostrum.Application,
# ...
]
endIf you want to run some logic ahead of starting nostrum, you can naturally also put it later into the list.
You can start your bot now, and it's going to run. If you look at your
bot's application in :observer, you will see that nostrum has now become one
with your bot. We call that integration engineering.
Now that our app bundles everything it needs with itself, this means starting our app will also starting nostrum, and stopping will also stop nostrum. We need this for step two.
Setting up distribution
The avid reader will probably know that starting with the same --cookie and
--sname / --name is only step one, the nodes need to connect to each other
as well.
To be able to test this in interactive mode we will configure the settings in
Erlang configuration files, for releases you can use your regular
config/prod.exs. We will set up the following:
Instruct OTP that our app,
:mybotis a distributed app, and give it the hosts to run it on.On startup, tell OTP it should wait for the other nodes to become available.
With the Erlang configuration files, this can be done as follows:
% mybot_joe.config
[{kernel,
[{distributed, [{mybot, 5000, [joe@HOSTNAME, {mike@HOSTNAME, robert@HOSTNAME}]}]},
{sync_nodes_mandatory, [mike@HOSTNAME, robert@HOSTNAME]},
{sync_nodes_timeout, 30000}]}].% mybot_robert.config
[{kernel,
[{distributed, [{mybot, 5000, [joe@HOSTNAME, {mike@HOSTNAME, robert@HOSTNAME}]}]},
{sync_nodes_mandatory, [joe@HOSTNAME, mike@HOSTNAME]},
{sync_nodes_timeout, 30000}]}].% mybot_mike.config
[{kernel,
[{distributed, [{mybot, 5000, [joe@HOSTNAME, {mike@HOSTNAME, robert@HOSTNAME}]}]},
{sync_nodes_mandatory, [joe@HOSTNAME, robert@HOSTNAME]},
{sync_nodes_timeout, 30000}]}].Note the only thing that changes is the sync_node_mandatory setting, which
instructs OTP which hosts to wait for on startup. The other settings must match.
These options instructs OTP that our app :mybot is distributed and should be
started at :joe@HOSTNAME first. If that fails, it moves to :robert@HOSTNAME
or :mike@HOSTNAME.
For details on the options, please see the kernel reference manual.
Playtest
In three distinct windows, run the following:
iex --sname joe --cookie foo --erl-config myapp_joe.config -S mixiex --sname robert --cookie foo --erl-config myapp_robert.config -S mixiex --sname mike --cookie foo --erl-config myapp_mike.config -S mix
If you have some other application that breaks on startup now - like monitoring exporters that bind to specific ports, or similar things - this is when they will blow up. Decide whether you want to run this on every node indeed or include it with your app as shown above.
You now have three instances of the VM running. :joe@HOSTNAME runs your bot
right now. If you stop that node, one of the other two nodes will start running
your app. High availability complete.
Being informed about takeover
Your application's def start function takes a type argument. In this case,
on the node that now runs your application, that type was {:failover, :joe@HOSTNAME}. If you start :joe@HOSTNAME back up, :joe@HOSTNAME is
started with {:takeover, source_node}, where source_node is the node that it
took over from.
Manual takeover
If you want to move your app around manually, you can use
:application.takeover, for example :application.takeover(:mybot, :permanent).
Final thoughts
At present, nostrum can not perform any state synchronization between nodes, it is an effective restart from scratch. For most bots, this type of failover will be sufficient.