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Oxen Multi SN Setup

The deb produced here gives you systemd service templates to help you run multiple service nodes on one machine.

This is NOT officially supported, carries higher risk, and needs considerably more resources per machine.

Warning - Risk

Doing this is increasing your risk: if the machine goes down all the service nodes on it go down, while if you use multiple VPSes the loss of one VPS affects only that one service node and not the others.

Warning - Hardware requirements

You also should take care to make sure the machine is capable of handling it. For each service node you want to run, assuming the box is only being used only for Oxen service nodes, you will need the following (but note that these requirements are likely to increase in the future):

  • 1/2 of a dedicated server high performance core (Ryzen or modern Intel Core). A little bit more than half for a dedicated server with older CPUs.
  • One full virtual CPU core on a VPS (because these are shared cores with other VPSes!)
  • 2 GB of RAM
  • 20 GB of free, SSD storage space (regular hard drives not recommended for blockchain storage).
  • at least 100Mbps of bandwidth

For example, on a dedicated server with a 4 core (8 thread) Intel Xeon processor, 32 GB of RAM, and 180 GB of free hard drive space, and a 500Mbps connection you'd have a machine that has limits of:

8 SNs (CPU) 16 SNs (RAM) 6 SNs (storage) 5 SNs (bandwidth)

and so this machine could handle 5 SNs. The same machine with a gigabit connection and 500GB of storage would be good for 8 SNs (now limited by the CPU).

A second hypothetical example of a VPS that offers 4 virtual CPUs, 16GB RAM, 160GB disk space on a 1Gbps connection would be good for:

4 SNs (CPU) 8 SNs (RAM) 8 SNs (storage) 10 SNs (bandwidth)

so a limit of 4 service nodes. (In my experience, each virtual CPU offered on a VPS is usually substantially weaker than a single core of a dedicated server. I'd be tempted to try load more service nodes on the core of a dedicated server than I would to load more onto a "big" VPS. So in other words, a dedicated server with these same specifications but with real cores could easily handle twice the CPU load of this VPS).

Installing the package

Pre-built multi-service-node packages are available from the Oxen apt repo.

This package installs a oxen-multi-sn debian/ubuntu package which installs systemd service templates named [email protected], [email protected], [email protected] as well as systemd targets named oxen-nodes.target, oxen-storage-servers.target, and lokinet-routers.target.

There will also be a oxend service node running on the default port (or you may have it already configured and running). It will use the basic, untemplated service files (oxen-node.service, oxen-storage-server.service, and lokinet-router.service).

Alternatively you can mask these services before installing any of the oxen debs to prevent them from running; it'll work either way. To mask them so that only the templated service nodes described below get activated, run this command before installing oxend, oxen-storage-server, or this package:

sudo systemctl mask oxen-node.service oxen-storage-server.service lokinet-router.service

Once masked, you can install using:

sudo apt install oxen-multi-sn

which will install them but, because they are masked, not start them. (If you already have one running with the basic debs then just don't unmask: you'll continue to have the default services running in addition to the new templated onces we set up below).

Setting up a service node

Step 1: Choose a number

Choose a two-digit number from 00 to 99. I recommend you start at 00 or 01 and then move up by one for each one, but if you have some other system in mind go ahead as long as you use two-digit numbers.

The number you choose will be used in the ports that your service nodes use: for service number with number XX:

Public address listeners:

  • storage server will listen on the public IP on ports 221XX (TCP) and 202XX (both TCP and UDP).
  • oxend p2p will listen on port 222XX (on the public IP)
  • oxend quorumnet will listen on port 225XX (on the public IP)
  • lokinet will listen on UDP port 109XX (on the public IP)

Internal (localhost) listeners:

  • oxend rpc will listen on port 223XX
  • lokinet rpc will listen on port 119XX
  • the lokinet router will add and use local network 10.1XX.0.0/16 on a virtual interface named lokitunXX, on which the local snode is available at 10.1XX.0.1 (you probably don't need to worry about this).

As an example, let's say I have chosen the number 42. Then my public IP will have services on ports 20242 (TCP+UDP), 22142 (TCP), 22242 (TCP), 22542 (TCP), and 10942 (UDP); with internal (localhost) ports 22342, 22442, and 11942. (If you are using a firewall that blocks everything, add appropriate exceptions for each SN's six [4 TCP, 2 UDP] public ports).

Step 2: Enable the service

Enable and start your service node cluster using the number you chose above (I'll continue using 42 as an example):

sudo oxen-multi-sn-create 42

This will set up basic configurations for the service node components, and enable and start these services:

If you want to control just one service, you use these templated names to manage the services. For example, to stop just this oxend:

systemctl stop [email protected]

or to view oxen-storage-server log output:

journalctl -u oxen-storage-server@42 -af

The oxend data will be inside /var/lib/oxen/node-42, the storage server data will be inside /var/lib/oxen/storage-42, and the lokinet data will be inside /var/lib/lokinet/router-42. Configuration for each will be in /etc/oxen/node-42.conf, /etc/oxen/storage-42.conf, and /etc/oxen/lokinet-router-42.ini.

You will most likely want one additional piece to be able to query the service node: inside your ~/.bashrc add the following:

for n in /etc/oxen/node-*.conf; do
    p=${n/*node-/}
    p=${p/.conf/}
    alias oxend-$p="oxend --config=$n"
done
oxend_all() {
    for n in /etc/oxen/node-*.conf; do
        p=${n/*node-/}
        p=${p/.conf/}
        echo -e "\noxend-$p:"
        oxend --config=$n "$@"
    done
}

When you log out and log in again you will now have a oxend-42 alias that invokes commands on your node 42, such as checking the status:

$ oxend-42 status
2019-12-29 02:22:36.107	I Loki 'Nimble Nerthus' (v6.1.0-1f61de91b)
2019-12-29 02:22:36.107	I Generating SSL certificate
Height: 434477/434477 (100.0%), net hash 54.78 MH/s, v6.1.0(net v13) (next fork in 10.9 days), up to date, 8(out)+11(in) connections, uptime 1d 6h 57m 4s
SN: cc3427f59fb9ae3bf9ef00b411186575f2e4882c3e57b8f37087cb305fc54ca2 active, proof: 53.1 minutes ago, last pings: 2.7min (storage), 2.1min (lokinet)

and you will have a oxend_all command that runs a command on all the oxends, such as:

$ oxend_all status

oxend-00:
2019-12-29 02:30:04.447	I Loki 'Nimble Nerthus' (v6.1.0-1f61de91b)
2019-12-29 02:30:04.447	I Generating SSL certificate
Height: 434484/434484 (100.0%), net hash 53.24 MH/s, v6.1.0(net v13) (next fork in 10.9 days), up to date, 9(out)+9(in) connections, uptime 1d 7h 4m 34s
SN: 8c5c138501e37eadde733d46a24e0678be416d637cd692dbef22e837b45f6601 active, proof: 37 seconds ago, last pings: 8sec (storage), 4.8min (lokinet)

oxend-01:
2019-12-29 02:30:05.420	I Loki 'Nimble Nerthus' (v6.1.0-1f61de91b)
2019-12-29 02:30:05.420	I Generating SSL certificate
Height: 434484/434484 (100.0%), net hash 53.24 MH/s, v6.1.0(net v13) (next fork in 10.9 days), up to date, 8(out)+14(in) connections, uptime 1d 7h 4m 35s
SN: 44e8e7ef21e9ff147b82f6409802adb682c2c91dee30b89f5199393866bc2a6c active, proof: 32 seconds ago, last pings: 9sec (storage), 4.9min (lokinet)

Upgrades

A oxen-multi-sn-upgrade script is installed that you should run after upgrading the oxen-multi-sn package. It looks for upgrade-needed generated config files and upgrades them for you. (When there is nothing to upgrade it doesn't do anything, so always safe to run it, particularly for major upgrades).

Generally you will be prompted during upgrade of the oxen-multi-sn package when such a manual upgrade script run is needed.

As of the rebranded oxen debs, it is no longer necessary to manually restart after upgrading the individual software components (oxend, oxen-storage-server, etc.).

Should you wish to restart manually anyway, you can use:

sudo systemctl restart oxen-node@01 oxen-node@02 oxen-node@03

which you can also shorten to:

sudo systemctl restart oxen-node@{01,02,03}

The templates services, however, also get a "target" which you can use:

sudo systemctl restart oxen-nodes.target

Similarly there are targets for storage server and routers: oxen-storage-servers.target and lokinet-routers.target.

Note, however, that targets only apply to currently running services, so if you have stopped some you cannot use sudo systemctl start oxen-nodes.target to start them all: it will only restart nodes that are already running.

Managing service node keys

You should keep a backup of your service node's private keys. If your server node were to irrecoverably crash or your ISP disconnects you, you will need them to set up your SN somewhere else.

If you know how to properly make a copy of a binary file (e.g. using scp) then do it for /var/lib/oxen/node-NN/key_ed25519 and, if it exists, /var/lib/oxen/node-NN/key, for whatever NN nodes you have set up.

Otherwise, a convenient way to back them up is to use the oxen-sn-keys tool (included with oxend) which lets you convert the binary keys into plain text data that you can easily copy and paste and save somewhere. For example:

hades:~$ sudo oxen-sn-keys show /var/lib/oxen/node-01/key
/var/lib/oxen/node-01/key (legacy SN keypair)
==========
Private key: f9d74c6cb83b1da9dae4df7400db545ba2bb61e9fb4b10f5e5b60dfcdd68cf04
Public key:  cbcbb4d5527450d877420ccb90a3c3ae44b04da5913966f676c5ebc735f09ea1

(Note that the above key file will only exist on service nodes upgraded from loki 7.x or earlier; new nodes created under loki/oxen 8.x and above will only have the following key_ed25519 file, while earlier nodes will have both files. To restore a service node you always need key_ed25519, and need key if it exists)

hades:~$ sudo oxen-sn-keys show /var/lib/oxen/node-01/key_ed25519 
"/var/lib/oxen/node-01/key_ed25519" (Ed25519 SN keypair)
==========
Secret key:      dacf1adeed1d7d2821f77ac13015493f4459c8c4d83334e9456a5b04993599da
Public key:      16be3acc80150c8f0fa97ffa3bdbfb2a3927f570a553ecb2acf018b20891956b
X25519 pubkey:   bcf303f32526687a82bd4279d2e1f638f6b5347e84a8cb9f46bc187ebfc44c29
Lokinet address: n49diurynwge6d7jx97dzs95feh1x7mowij63cic6ycmrnrt1iio.snode

(I know, I know, the "Hades" hostname above is from the wrong pantheon, but I named this machine long before Loki was born).

Copy and paste that content of the file(s) and back them up somewhere. If you ever need to restore it you would use one or both of:

sudo oxen-sn-keys restore /var/lib/oxen/node-99/key_ed25519
sudo oxen-sn-keys restore-legacy /var/lib/oxen/node-99/key

which will prompt you for the keys displayed by the show commands.

Faster syncing

Once you have one service node synced, you can start up another one much faster by stopping it and copying its lmdb file to the new one. Let's say I have service node 42 all synced and up and running, and I want to create server node 77.

  1. Set up service node 77 and let it run for 15 seconds, which should be long enough for it to create the initial lmdb database.

  2. Stop both service node 42 and 77: sudo systemctl stop oxen-node@42 oxen-node@77

  3. Copy 42's lmdb to 77's lmdb with:

    sudo cp -p /var/lib/oxen/node-42/lmdb/data.mdb /var/lib/oxen/node-77/lmdb/data.mdb
    

    Double check that you have this in the correct order! The first file path should be the fully synced node, the second is the new one to overwrite.

  4. Start both oxend's again with: sudo systemctl start oxen-node@42 oxen-node@77

  5. Check on your oxend's with oxend-42 status and oxend-77 status. (This assumes you installed the bit of code in ~/.bashrc that I mentioned earlier. Also you will have to log out and in again before the oxend-77 alias will work).

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Debian package to help run multiple service nodes on one machine

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