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go-ethereum/docs/_developers/dns-discovery-setup.md

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DNS Discovery Setup Guide C

This document explains how to set up an EIP 1459 node list using the devp2p developer tool. The focus of this guide is creating a public list for the Ethereum mainnet and public testnets, but you may also find this helpful if you want to set up DNS-based discovery for a private network.

DNS-based node lists can serve as a fallback option when connectivity to the discovery DHT is unavailable. In this guide, we'll create node lists by crawling the discovery DHT, then publishing the resulting node sets under chosen DNS names.

Installing the devp2p command

cmd/devp2p is a developer utility and is not included in the Geth distribution. You can install this command using go get:

go get github.com/ethereum/go-ethereum/cmd/devp2p

To create a signing key, you might also need the ethkey utility.

go get github.com/ethereum/go-ethereum/cmd/ethkey

Crawling the v4 DHT

Our first step is to compile a list of all reachable nodes. The DHT crawler in cmd/devp2p is a batch process which runs for a set amount of time. You should should schedule this command to run at a regular interval. To create a node list, run

devp2p discv4 crawl -timeout 30m all-nodes.json

This walks the DHT and stores the set of all found nodes in the all-nodes.json file. Subsequent runs of the same command will revalidate previously discovered node records, add newly-found nodes to the set, and remove nodes which are no longer alive. The quality of the node set improves with each run because the number of revalidations is tracked alongside each node in the set.

Creating sub-lists through filtering

Once all-nodes.json has been created and the set contains a sizeable number of nodes, useful sub-sets of nodes can be extracted using the devp2p nodeset filter command. This command takes a node set file as argument and applies filters given as command-line flags.

To create a filtered node set, first create a new directory to hold the output set. You can use any directory name, though it's good practice to use the DNS domain name as the name of this directory.

mkdir mainnet.nodes.example.org

Then, to create the output set containing Ethereum mainnet nodes only, run

devp2p nodeset filter all-nodes.json -eth-network mainnet > mainnet.nodes.example.org/nodes.json

The following filter flags are available:

  • -eth-network ( mainnet | ropsten | rinkeby | goerli ) selects an Ethereum network.
  • -les-server selects LES server nodes.
  • -ip <mask> restricts nodes to the given IP range.
  • -min-age <duration> restricts the result to nodes which have been live for the given duration.

Creating DNS trees

To turn a node list into a DNS node tree, the list needs to be signed. To do this, you need a key pair. To create the key file in the correct format, you can use the cmd/ethkey utility. Please choose a good password to encrypt the key on disk.

ethkey generate dnskey.json

Now use devp2p dns sign to update the signature of the node list. If your list's directory name differs from the name you want to publish it at, please specify the DNS name the using the -domain flag. This command will prompt for the key file password and update the tree signature.

devp2p dns sign mainnet.nodes.example.org dnskey.json

The resulting DNS tree metadata is stored in the mainnet.nodes.example.org/enrtree-info.json file.

Publishing DNS trees

Now that the tree is signed, it can be published to a DNS provider. cmd/devp2p currently supports publishing to CloudFlare DNS and Amazon Route53. You can also export TXT records as a JSON file and publish them yourself.

To publish to CloudFlare, first create an API token in the management console. cmd/devp2p expects the API token in the CLOUDFLARE_API_TOKEN environment variable. Now use the following command to upload DNS TXT records via the CloudFlare API:

devp2p dns to-cloudflare mainnet.nodes.example.org

Note that this command uses the domain name specified during signing. Any existing records below this name will be erased by cmd/devp2p.

Using DNS trees with Geth

Once your tree is available through a DNS name, you can tell geth to use it with the --discovery.dns command line flag. Node trees are referenced using the enrtree:// URL scheme. You can find the URL of your tree in the enrtree-info.json file created by devp2p dns sign. Just pass the URL as an argument to the flag in order to make use of the published tree.

geth --discovery.dns "enrtree://AMBMWDM3J6UY3M32TMMROUNLX6Y3YTLVC3DC6HN2AVG5NHNSAXDW6@mainnet.nodes.example.org"