4 releases (1 stable)
1.0.0 | Jan 30, 2024 |
---|---|
0.3.0 | Mar 8, 2023 |
0.2.1 | Jan 30, 2023 |
0.1.0 | Jan 18, 2023 |
#2394 in Magic Beans
100 downloads per month
48KB
683 lines
Quorum Vault Client
A Rust client for the Quorum Vault Plugin API.
This client based on the Vault Client.
The following backends are supported:
- Ethereum
- Create Ethereum Account
- List Ethereum Accounts
- Read Ethereum Account by Address
- Sign Ethereum Transaction (only Legacy)
- Import Private Key
- Keys
- Create Key
- List Keys
- Read Key
- Delete Key
- Sign Data
- Import Private Key
Installation
Add the following to your Cargo.toml
:
[dependencies]
quorum-vault-client = "1.0.0"
Usage
Basic
The client is used to configure the connection to Vault and is required to be passed to all API calls for execution. Behind the scenes it uses an asynchronous client from Reqwest for communicating to Vault.
use quorum_vault_client::{Client, VaultClient, VaultClientSettingsBuilder};
fn main() {
let client = VaultClient::new(
VaultClientSettingsBuilder::default()
.address("https://127.0.0.1:8200")
.token("TOKEN")
.build()
.unwrap()
).unwrap();
}
Ethereum
Create new Ethereum Wallet
The following example creates a new Ethereum Wallet in the Vault.
use quorum_vault_client::{Client, VaultClient, VaultClientSettingsBuilder};
#[tokio::main]
async fn main() {
// Create a client
let client = VaultClient::new(
VaultClientSettingsBuilder::default()
.address("https://127.0.0.1:8200")
.token("TOKEN")
.build()
.unwrap()
).unwrap();
// By default the plugin mounts the Ethereum backend at the path "quorum"
let created_account = quorum_vault_client::api::create_account(&client, "quorum").await.unwrap();
println!("result: {:?}", created_account);
}
Result of the execution is the following:
> result: EthereumAccountResponse { address: 0x1a669bad7bda1f553087df8568b8782bcb0023ac, compressed_public_key: "0x020e44fde7435da96f8260788a89d4c37f2b3d96fd936dd978b886de6872d73062", public_key: "0x040e44fde7435da96f8260788a89d4c37f2b3d96fd936dd978b886de6872d730629c94a4803d3073b0bbe9a3d46f201eef5beec04d0e6f464e07704c159edd2c64", namespace: "" }
List all Ethereum Wallets
The following example gets list of all Ethereum Wallets in the Vault.
use quorum_vault_client::{Client, VaultClient, VaultClientSettingsBuilder};
#[tokio::main]
async fn main() {
// Create a client
let client = VaultClient::new(
VaultClientSettingsBuilder::default()
.address("https://127.0.0.1:8200")
.token("TOKEN")
.build()
.unwrap()
).unwrap();
let list_accounts = quorum_vault_client::api::list_accounts(&client, "quorum").await.unwrap();
println!("result: {:?}", list_accounts);
}
Result of the execution is the following:
> result: EthereumAccountsResponse { keys: [0x1a669bad7bda1f553087df8568b8782bcb0023ac, 0x8d3113e29cb92f44f1762e52d2a0276509b36b82] }
Read Ethereum Wallet
The following example gets the Ethereum Wallet by address.
use quorum_vault_client::{Client, VaultClient, VaultClientSettingsBuilder, Address};
use std::str::FromStr;
#[tokio::main]
async fn main() {
// Create a client
let client = VaultClient::new(
VaultClientSettingsBuilder::default()
.address("https://127.0.0.1:8200")
.token("TOKEN")
.build()
.unwrap()
).unwrap();
let address = Address::from_str("0x8d3113e29CB92F44F1762E52D2a0276509b36b82").unwrap();
let read_account = quorum_vault_client::api::read_account(&client, "quorum", account).await.unwrap();
println!("result: {:?}", read_account);
}
Result of the execution is the following:
> result: EthereumAccountResponse { address: 0x8d3113e29cb92f44f1762e52d2a0276509b36b82, compressed_public_key: "0x03b1c069a45b14697567661e6426ab0639f73762d7526765b2bd6891a73d84ebb5", public_key: "0x04b1c069a45b14697567661e6426ab0639f73762d7526765b2bd6891a73d84ebb57e6abbec4c9738a025d1a611e431ecf006227dbf6ca400f85518df70e5d101cb", namespace: "" }
Sign Ethereum Transaction
The following example signs the Ethereum Transaction.
use quorum_vault_client::{Client, VaultClient, VaultClientSettingsBuilder, TransactionRequest, Address, U256};
use std::str::FromStr;
#[tokio::main]
async fn main() {
// Create a client
let client = VaultClient::new(
VaultClientSettingsBuilder::default()
.address("https://127.0.0.1:8200")
.token("TOKEN")
.build()
.unwrap()
).unwrap();
let address = Address::from_str("0x8d3113e29CB92F44F1762E52D2a0276509b36b82").unwrap();
let mut tx: TransactionRequest = TransactionRequest::builder()
.from(address)
.to(address)
.value(U256::from_dec_str("1000000000000000000").unwrap())
.gas(U256::from(21000))
.nonce(U256::from(0))
.build();
tx.gas_price = Some(U256::from(1));
let sign_transaction = quorum_vault_client::api::sign_transaction(&client, "quorum", 1, tx).await.unwrap();
println!("result: {:?}", sign_transaction);
}
Result of the execution is the following:
> signature: EthereumSignTransactionResponse { signature: "0xf29001752503d05ae83874193a8d866d49fc897c1a2fcb6229a0c61e4b5663f7097817a26f4c6014bbfd24c484bad9587c9c627c6f70d020f8638a4067bb78e801" }
Keys
Create Key
The following example creates a new key in the Vault.
use quorum_vault_client::{Client, VaultClient, VaultClientSettingsBuilder};
use quorum_vault_client::api::KeyCryptoAlgorithm;
#[tokio::main]
async fn main() {
// Create a client
let client = VaultClient::new(
VaultClientSettingsBuilder::default()
.address("https://127.0.0.1:8200")
.token("TOKEN")
.build()
.unwrap()
).unwrap();
let created_key = quorum_vault_client::api::create_key(&client, "quorum", "some-id", KeyCryptoAlgorithm::Secp256k1, [("tag".to_string(), "value".to_string())].into_iter().collect()).await.unwrap();
println!("result: {:?}", created_key);
}
Result of the execution is the following:
> result: KeyResponse { created_at: "2023-01-30T09:08:22.217224856Z", curve: "secp256k1", id: "some-id", namespace: "", public_key: "BIwm5UiSGTiXVRlB_rS7qYSzQ6XZbaWfUOJKVicU85q-N7zuAak2JQfAHUs2Sm2WAA7YyWdN7_4UFJFggEa6AKw=", signing_algorithm: "ecdsa", tags: {"tag": "value0"}, updated_at: "2023-01-30T09:08:22.217224856Z", version: 1 }
Read Key
The following example reads the key by id.
use quorum_vault_client::{Client, VaultClient, VaultClientSettingsBuilder};
#[tokio::main]
async fn main() {
// Create a client
let client = VaultClient::new(
VaultClientSettingsBuilder::default()
.address("https://127.0.0.1:8200")
.token("TOKEN")
.build()
.unwrap()
).unwrap();
let key = quorum_vault_client::api::read_key(&client, "quorum", "some-id").await.unwrap();
println!("result: {:?}", key);
}
Result of the execution is the following:
> result: KeyResponse { created_at: "2023-01-30T09:08:22.217224856Z", curve: "secp256k1", id: "some-id", namespace: "", public_key: "BIwm5UiSGTiXVRlB_rS7qYSzQ6XZbaWfUOJKVicU85q-N7zuAak2JQfAHUs2Sm2WAA7YyWdN7_4UFJFggEa6AKw=", signing_algorithm: "ecdsa", tags: {"tag": "value0"}, updated_at: "2023-01-30T09:08:22.217224856Z", version: 1 }
List Keys
The following example lists all keys in the Vault.
use quorum_vault_client::{Client, VaultClient, VaultClientSettingsBuilder};
#[tokio::main]
async fn main() {
// Create a client
let client = VaultClient::new(
VaultClientSettingsBuilder::default()
.address("https://127.0.0.1:8200")
.token("TOKEN")
.build()
.unwrap()
).unwrap();
let keys = quorum_vault_client::api::list_keys(&client, "quorum").await.unwrap();
println!("result: {:?}", keys);
}
Result of the execution is the following:
> result: KeysResponse { keys: ["some-id"] }
Delete Key
The following example deletes the key by id.
use quorum_vault_client::{Client, VaultClient, VaultClientSettingsBuilder};
#[tokio::main]
async fn main() {
// Create a client
let client = VaultClient::new(
VaultClientSettingsBuilder::default()
.address("https://127.0.0.1:8200")
.token("TOKEN")
.build()
.unwrap()
).unwrap();
quorum_vault_client::api::destroy_key(&client, "quorum", "some-id").await.unwrap();
}
Sign data
The following example signs the data by key id.
use quorum_vault_client::{Client, VaultClient, VaultClientSettingsBuilder};
#[tokio::main]
async fn main() {
// Create a client
let client = VaultClient::new(
VaultClientSettingsBuilder::default()
.address("https://127.0.0.1:8200")
.token("TOKEN")
.build()
.unwrap()
).unwrap();
let signature = quorum_vault_client::api::sign(&client, "quorum", "some-id", "some-data".as_bytes().await.unwrap();
println!("signature: {:?}", signature);
}
Result of the execution is the following:
> signature: SignResponse { signature: "Z1ibkBIGjMLh5pSR5mFZ5NbesrM57g-FGkFr0sbIyIlI_M0BYVN_LD-Nt7x1wUo6AoLQyL0I-z7PD8MsdgmkhQ==" }
Dependencies
~14–30MB
~472K SLoC