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171 lines
5.5 KiB
Markdown
171 lines
5.5 KiB
Markdown
enr
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============
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[![Build Status]][Build Link] [![Doc Status]][Doc Link] [![Crates
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Status]][Crates Link]
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[Build Status]: https://github.com/AgeManning/enr/workflows/build/badge.svg?branch=master
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[Build Link]: https://github.com/AgeManning/enr/actions
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[Doc Status]: https://docs.rs/enr/badge.svg
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[Doc Link]: https://docs.rs/enr
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[Crates Status]: https://img.shields.io/crates/v/enr.svg
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[Crates Link]: https://crates.io/crates/enr
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[Documentation at docs.rs](https://docs.rs/enr)
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This crate contains an implementation of an Ethereum Node Record (ENR) as specified by
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[EIP-778](https://eips.ethereum.org/EIPS/eip-778) extended to allow for the use of ed25519 keys.
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An ENR is a signed, key-value record which has an associated `NodeId` (a 32-byte identifier).
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Updating/modifying an ENR requires an `EnrKey` in order to re-sign the record with the
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associated key-pair.
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ENR's are identified by their sequence number. When updating an ENR, the sequence number is
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increased.
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Different identity schemes can be used to define the node id and signatures. Currently only the
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"v4" identity is supported and is set by default.
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## Signing Algorithms
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User's wishing to implement their own singing algorithms simply need to
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implement the `EnrKey` trait and apply it to an `Enr`.
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By default, `k256::SigningKey` implement `EnrKey` and can be used to sign and
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verify ENR records. This library also implements `EnrKey` for `ed25519_dalek::Keypair` via the `ed25519`
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feature flag.
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Furthermore, a `CombinedKey` is provided if the `ed25519` feature flag is set, which provides an
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ENR type that can support both `secp256k1` and `ed25519` signed ENR records. Examples of the
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use of each of these key types is given below.
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## Features
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This crate supports a number of features.
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- `serde`: Allows for serde serialization and deserialization for ENRs.
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- `ed25519`: Provides support for `ed25519_dalek` keypair types.
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- `rust-secp256k1`: Uses `c-secp256k1` for secp256k1 keys.
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These can be enabled via adding the feature flag in your `Cargo.toml`
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```toml
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enr = { version = "*", features = ["serde", "ed25519", "rust-secp256k1"] }
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```
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## Examples
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To build an ENR, an `EnrBuilder` is provided.
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#### Building an ENR with the default `k256` key type
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```rust
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use enr::{EnrBuilder, k256};
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use std::net::Ipv4Addr;
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use rand::thread_rng;
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// generate a random secp256k1 key
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let mut rng = thread_rng();
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let key = k256::ecdsa::SigningKey::random(&mut rng);
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let ip = Ipv4Addr::new(192,168,0,1);
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let enr = EnrBuilder::new("v4").ip4(ip).tcp4(8000).build(&key).unwrap();
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assert_eq!(enr.ip4(), Some("192.168.0.1".parse().unwrap()));
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assert_eq!(enr.id(), Some("v4".into()));
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```
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#### Building an ENR with the `CombinedKey` type (support for multiple signing algorithms).
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Note the `ed25519` feature flag must be set. This makes use of the
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`EnrBuilder` struct.
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```rust
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use enr::{EnrBuilder, CombinedKey};
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use std::net::Ipv4Addr;
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// create a new secp256k1 key
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let key = CombinedKey::generate_secp256k1();
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// or create a new ed25519 key
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let key = CombinedKey::generate_ed25519();
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let ip = Ipv4Addr::new(192,168,0,1);
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let enr = EnrBuilder::new("v4").ip4(ip).tcp4(8000).build(&key).unwrap();
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assert_eq!(enr.ip4(), Some("192.168.0.1".parse().unwrap()));
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assert_eq!(enr.id(), Some("v4".into()));
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```
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#### Modifying an ENR
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ENR fields can be added and modified using the getters/setters on `Enr`. A custom field
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can be added using `insert` and retrieved with `get`.
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```rust
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use enr::{EnrBuilder, k256::ecdsa::SigningKey, Enr};
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use std::net::Ipv4Addr;
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use rand::thread_rng;
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// specify the type of ENR
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type DefaultEnr = Enr<SigningKey>;
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// generate a random secp256k1 key
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let mut rng = thread_rng();
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let key = SigningKey::random(&mut rng);
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let ip = Ipv4Addr::new(192,168,0,1);
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let mut enr = EnrBuilder::new("v4").ip4(ip).tcp4(8000).build(&key).unwrap();
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enr.set_tcp4(8001, &key);
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// set a custom key
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enr.insert("custom_key", &vec![0,0,1], &key);
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// encode to base64
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let base_64_string = enr.to_base64();
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// decode from base64
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let decoded_enr: DefaultEnr = base_64_string.parse().unwrap();
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assert_eq!(decoded_enr.ip4(), Some("192.168.0.1".parse().unwrap()));
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assert_eq!(decoded_enr.id(), Some("v4".into()));
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assert_eq!(decoded_enr.tcp4(), Some(8001));
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assert_eq!(decoded_enr.get("custom_key"), Some(vec![0,0,1].as_slice()));
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```
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#### Encoding/Decoding ENR's of various key types
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```rust
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use enr::{EnrBuilder, k256::ecdsa::SigningKey, Enr, ed25519_dalek::Keypair, CombinedKey};
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use std::net::Ipv4Addr;
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use rand::thread_rng;
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use rand::Rng;
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// generate a random secp256k1 key
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let mut rng = thread_rng();
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let key = SigningKey::random(&mut rng);
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let ip = Ipv4Addr::new(192,168,0,1);
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let enr_secp256k1 = EnrBuilder::new("v4").ip4(ip).tcp4(8000).build(&key).unwrap();
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// encode to base64
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let base64_string_secp256k1 = enr_secp256k1.to_base64();
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// generate a random ed25519 key
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let mut rng = rand_07::thread_rng();
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let key = Keypair::generate(&mut rng);
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let enr_ed25519 = EnrBuilder::new("v4").ip4(ip).tcp4(8000).build(&key).unwrap();
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// encode to base64
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let base64_string_ed25519 = enr_ed25519.to_base64();
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// decode base64 strings of varying key types
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// decode the secp256k1 with default Enr
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let decoded_enr_secp256k1: Enr<k256::ecdsa::SigningKey> = base64_string_secp256k1.parse().unwrap();
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// decode ed25519 ENRs
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let decoded_enr_ed25519: Enr<ed25519_dalek::Keypair> = base64_string_ed25519.parse().unwrap();
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// use the combined key to be able to decode either
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let decoded_enr: Enr<CombinedKey> = base64_string_secp256k1.parse().unwrap();
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let decoded_enr: Enr<CombinedKey> = base64_string_ed25519.parse().unwrap();
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```
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