Switchboard
Switchboard is an Oracle protocol that enables developers to source data on-chain for a variety of use cases such as price feeds, NFT floor prices, sport statistics, or even verifiable randomness. In a general sense, Switchboard is an off-chain resource developers can invoke to bridge high integrity data on-chain and power the next generation of web3 and DeFi.
Data Feeds
Switchboard provides a JavaScript/TypeScript library called @switchboard-xyz/switchboard-v2 . This library can be used to reach On-chain data from existing data feeds or publish your own custom feeds. Learn more about this here
Read data from an aggregator feed
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import {
clusterApiUrl,
Connection,
Keypair,
PublicKey,
LAMPORTS_PER_SOL,
} from "@solana/web3.js";
import * as switchboard from "@switchboard-xyz/switchboard-v2";
async () => {
const payer = Keypair.generate();
const connection = new Connection(clusterApiUrl("devnet"));
const program = await switchboard.loadSwitchboardProgram(
"devnet",
connection,
payer
);
const airdropSignature = await connection.requestAirdrop(
payer.publicKey,
LAMPORTS_PER_SOL
);
await connection.confirmTransaction(airdropSignature);
console.log("here");
const aggregatorAccount = new switchboard.AggregatorAccount({
program: program,
publicKey: aggregatorKey,
});
const result: any = await aggregatorAccount.getLatestValue();
console.log(result.toNumber());
};
let aggregatorKey: PublicKey;
let program: Program<Idl>;
const aggregatorAccount = new switchboard.AggregatorAccount({
program: program,
publicKey: aggregatorKey,
});
const result: any = await aggregatorAccount.getLatestValue();
Create a new aggregator feed
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import * as anchor from "@project-serum/anchor";
import { Keypair } from "@solana/web3.js";
import {
AggregatorAccount,
loadSwitchboardProgram,
LeaseAccount,
OracleQueueAccount,
SwitchboardPermission,
} from "@switchboard-xyz/switchboard-v2";
let payer: Keypair;
let authority: Keypair; // queue authority
const program = await loadSwitchboardProgram("devnet", undefined, payer);
const queueAccount = new OracleQueueAccount({
program,
publicKey: queuePubkey,
});
// aggregator
const aggregatorAccount = await AggregatorAccount.create(program, {
name: Buffer.from("MY SOL/USD Feed"),
batchSize: 1,
minRequiredOracleResults: 1,
minRequiredJobResults: 1,
minUpdateDelaySeconds: 10,
queueAccount,
authority: authority.publicKey,
});
// permission
const permissionAccount = await PermissionAccount.create(program, {
authority: authority.publicKey,
granter: queueAccount.publicKey,
grantee: aggregatorAccount.publicKey,
});
await aggregatorPermission.set({
authority,
permission: SwitchboardPermission.PERMIT_ORACLE_QUEUE_USAGE,
enable: true,
});
// lease
const leaseContract = await LeaseAccount.create(program, {
loadAmount: new anchor.BN(0),
funder: tokenAccount,
funderAuthority: authority,
oracleQueueAccount: queueAccount,
aggregatorAccount,
});
// job
const tasks: OracleJob.Task[] = [
OracleJob.Task.create({
httpTask: OracleJob.HttpTask.create({
url: `https://ftx.us/api/markets/SOL_USD`,
}),
}),
OracleJob.Task.create({
jsonParseTask: OracleJob.JsonParseTask.create({ path: "$.result.price" }),
}),
];
const jobData = Buffer.from(
OracleJob.encodeDelimited(
OracleJob.create({
tasks,
})
).finish()
);
const jobKeypair = anchor.web3.Keypair.generate();
const jobAccount = await JobAccount.create(program, {
data: jobData,
keypair: jobKeypair,
authority: authority.publicKey,
});
// add job to aggregator
await aggregatorAccount.addJob(jobAccount, authority);
const queueAccount = new OracleQueueAccount({
program,
publicKey: queuePubkey,
});
const aggregatorAccount = await AggregatorAccount.create(program, {
name: Buffer.from("MY SOL/USD Feed"),
batchSize: 1,
minRequiredOracleResults: 1,
minRequiredJobResults: 1,
minUpdateDelaySeconds: 10,
queueAccount,
authority: authority.publicKey,
});
console.log(aggregatorAccount.publicKey.toString());
Read data from an aggregator feed in program
Switchboard provides a crate called switchboard_v2 Learn more about this here
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use anchor_lang::prelude::*;
use switchboard_v2::AggregatorAccountData;
declare_id!("HDa6A4wLjEymb8Cv3UGeGBnFUNCUEMpoiVBbkTKAkfrt");
#[program]
pub mod get_result {
use super::*;
pub fn get_result(ctx: Context<GetResult>) -> Result<()> {
let aggregator = &ctx.accounts.aggregator_feed.load()?;
let val:f64 = aggregator
.get_result()?
.try_into()?;
msg!("Current feed result is {}!", val);
Ok(())
}
}
#[derive(Accounts)]
pub struct GetResult<'info> {
pub authority: Signer<'info>,
/// CHECK: field is unsafe
pub aggregator_feed: AccountLoader<'info, AggregatorAccountData>, // pass aggregator key
}
let aggregator = &ctx.accounts.aggregator_feed.load()?;
let val:f64 = aggregator
.get_result()?
.try_into()?;
How to Create a Feed from the Publisher
The official Switchboard documentation has an in-depth walk-through of how to create a feed from the publisher. Check it out here.
Oracles
Switchboard's unique feature is that it allows you to create your own oracle and run it locally.
Create an oracle
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import * as anchor from "@project-serum/anchor";
import { Keypair } from "@solana/web3.js";
import {
loadSwitchboardProgram,
OracleAccount,
OracleQueueAccount,
} from "@switchboard-xyz/switchboard-v2";
let payer: Keypair;
const program = await loadSwitchboardProgram("devnet", undefined, payer);
const queueAccount = new OracleQueueAccount({
program,
publicKey: queuePubkey,
});
// Create oracle
const oracleAccount = await OracleAccount.create(program, {
name: Buffer.from("My Oracle"),
queueAccount,
});
const queueAccount = new OracleQueueAccount({
program,
publicKey: queuePubkey,
});
// Create oracle
const oracleAccount = await OracleAccount.create(program, {
name: Buffer.from("My Oracle"),
queueAccount,
});
Run an oracle locally
You can run an oracle locally and assign it to your own oracle queue to test how your program may operate in production. Mainnet oracles should always be run in high availability environments with some set of monitoring capabilities.
Requirements
- Docker-compose
Create a docker-compose.yml file with the environment variables in Oracle Config
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version: "3.3"
services:
switchboard:
image: "switchboardlabs/node:dev-v2-5-28-22a"
network_mode: host
restart: always
environment:
- LIVE=1
- CLUSTER=devnet
- RPC_URL=${RPC_URL}
- ORACLE_KEY=${ORACLE_KEY}
- HEARTBEAT_INTERVAL=15
volumes:
- ./configs.json:/configs.json
secrets:
PAYER_SECRETS:
file: /filesystem/path/to/keypair.json
version: "3.3"
services:
switchboard:
image: "switchboardlabs/node:dev-v2-5-28-22a"
network_mode: host
restart: always
environment:
- LIVE=1
- CLUSTER=devnet
- RPC_URL=${RPC_URL}
- ORACLE_KEY=${ORACLE_KEY}
- HEARTBEAT_INTERVAL=15
volumes:
- ./configs.json:/configs.json
secrets:
PAYER_SECRETS:
file: /filesystem/path/to/keypair.json
Run the container using docker-compose up
Oracle Config
| Env Variable | Definition |
|---|---|
| ORACLE_KEY | Required Type - Public Key Description - Public key of the oracle account that has been granted permissions to use an oracle queue |
| HEARTBEAT_INTERVAL | Optional Type - Number (seconds) Default - 30 Description - Seconds between oracle heartbeats. Queues have different oracle heartbeat requirements. Recommended value is 15 |
| GCP_CONFIG_BUCKET | Optional Type - GCP Resource Path Default - Looks for configs.json in the current working directory. If not found, no config is loaded. Description - Contains API keys for private API endpoints |
| UNWRAP_STAKE_THRESHOLD | Optional Type - Number (SOL amount, Ex. 1.55) Default - 0, disabled. Description - The Solana balance amount to trigger an unwrap stake action. When an oracle's Solana balance falls below the set threshold, the node will automatically unwrap funds from the oracle's staking wallet, leaving at least 0.1 wSOL or 10% more than the queue's minimum stake requirement. |
Verifiable Random Function(VRF)
A Verifiable Random Function (VRF) is a public-key pseudorandom function that provides proofs that its outputs were calculated correctly
Reading a VRF account
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import * as anchor from "@project-serum/anchor";
import { Keypair } from "@solana/web3.js";
import {
loadSwitchboardProgram,
VrfAccount,
} from "@switchboard-xyz/switchboard-v2";
let payer: Keypair;
const program = await loadSwitchboardProgram("devnet", undefined, payer);
const vrfAccount = new VrfAccount({
program,
publicKey: vrfKey,
});
const vrf = await vrfAccount.loadData();
console.log(vrf.currentRound.result);
const vrfAccount = new VrfAccount({
program,
publicKey: vrfKey,
});
const vrf = await vrfAccount.loadData();
console.log(vrf.currentRound.result);
use switchboard_v2::VrfAccountData;
let vrf = VrfAccountData::new(vrf_account_info)?;
let result_buffer = vrf.get_result()?;
if result_buffer == [0u8; 32] {
msg!("vrf buffer empty");
return Ok(());
}
let value: &[u128] = bytemuck::cast_slice(&result_buffer[..]);
let result = value[0] % 256000 as u128;
let vrf = VrfAccountData::new(vrf_account_info)?;
let result_buffer = vrf.get_result()?;
Creating a VRF account
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import * as anchor from "@project-serum/anchor";
import { Keypair } from "@solana/web3.js";
import {
loadSwitchboardProgram,
OracleQueueAccount,
PermissionAccount,
SwitchboardPermission,
VrfAccount,
} from "@switchboard-xyz/switchboard-v2";
let payer: Keypair;
const program = await loadSwitchboardProgram("devnet", undefined, payer);
const queueAccount = new queueAccount({ program, publicKey: queueKey });
const queue = await queueAccount.loadData();
// load client program used for callback
const vrfClientProgram = anchor.workspace
.AnchorVrfParser as anchor.Program<AnchorVrfParser>;
const vrfSecret = anchor.web3.Keypair.generate();
const vrfIxCoder = new anchor.BorshInstructionCoder(vrfClientProgram.idl);
const vrfClientCallback: Callback = {
programId: vrfClientProgram.programId,
accounts: [
// ensure all accounts in updateResult are populated
{ pubkey: vrfClientKey, isSigner: false, isWritable: true },
{ pubkey: vrfSecret.publicKey, isSigner: false, isWritable: false },
],
ixData: vrfIxCoder.encode("updateResult", ""), // pass any params for instruction here
};
// create VRF
const vrfAccount = await VrfAccount.create(program, {
queue: queueAccount,
callback: vrfClientCallback,
authority: vrfClientKey, // vrf authority
keypair: vrfSecret,
});
// create permission
const permissionAccount = await PermissionAccount.create(program, {
authority: queue.authority,
granter: queue.publicKey,
grantee: vrfAccount.publicKey,
});
// if queue has not enabled unpermissionedVrfEnabled, queue will need to grant permission
let queueAuthority: Keypair;
await permissionAccount.set({
authority: queueAuthority,
permission: SwitchboardPermission.PERMIT_VRF_REQUESTS,
enable: true,
});
const vrfAccount = await VrfAccount.create(program, {
queue: queueAccount,
callback: vrfClientCallback,
authority: vrfClientKey, // vrf authority
keypair: vrfSecret,
});
Request Randomness from vrf account
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import * as anchor from "@project-serum/anchor";
import { Keypair } from "@solana/web3.js";
import {
loadSwitchboardProgram,
VrfAccount,
} from "@switchboard-xyz/switchboard-v2";
let payer: Keypair;
let authority: Keypair;
const program = await loadSwitchboardProgram("devnet", undefined, payer);
const vrfAccount = new VrfAccount({
program,
publicKey: vrfKey,
});
const vrf = await vrfAccount.loadData();
const queueAccount = new OracleQueueAccount({
program,
publicKey: vrf.queuePubkey,
});
const queue = await queueAccount.loadData();
const mint = await queueAccount.loadMint();
const payerTokenWallet = (
await mint.getOrCreateAssociatedAccountInfo(payer.publicKey)
).address;
const signature = await vrfAccount.requestRandomness({
authority,
payer: payerTokenWallet,
payerAuthority: payer,
});
const signature = await vrfAccount.requestRandomness({
authority,
payer: payerTokenWallet,
payerAuthority: payer,
});
use crate::*;
use anchor_lang::prelude::*;
pub use switchboard_v2::{VrfAccountData, VrfRequestRandomness};
use anchor_spl::token::Token;
use anchor_lang::solana_program::clock;
#[derive(Accounts)]
#[instruction(params: RequestResultParams)] // rpc parameters hint
pub struct RequestResult<'info> {
#[account(
mut,
seeds = [
STATE_SEED,
vrf.key().as_ref(),
authority.key().as_ref(),
],
bump = state.load()?.bump,
has_one = vrf,
has_one = authority
)]
pub state: AccountLoader<'info, VrfClient>,
#[account(signer)]
pub authority: AccountInfo<'info>,
#[account(constraint = switchboard_program.executable == true)]
pub switchboard_program: AccountInfo<'info>,
#[account(mut, constraint = vrf.owner.as_ref() == switchboard_program.key().as_ref())]
pub vrf: AccountInfo<'info>,
#[account(mut, constraint = oracle_queue.owner.as_ref() == switchboard_program.key().as_ref())]
pub oracle_queue: AccountInfo<'info>,
pub queue_authority: UncheckedAccount<'info>,
#[account(constraint = data_buffer.owner.as_ref() == switchboard_program.key().as_ref())]
pub data_buffer: AccountInfo<'info>,
#[account(mut, constraint = permission.owner.as_ref() == switchboard_program.key().as_ref())]
pub permission: AccountInfo<'info>,
#[account(mut, constraint = escrow.owner == program_state.key())]
pub escrow: Account<'info, TokenAccount>,
#[account(mut, constraint = payer_wallet.owner == payer_authority.key())]
pub payer_wallet: Account<'info, TokenAccount>,
#[account(signer)]
pub payer_authority: AccountInfo<'info>,
#[account(address = solana_program::sysvar::recent_blockhashes::ID)]
pub recent_blockhashes: AccountInfo<'info>,
#[account(constraint = program_state.owner.as_ref() == switchboard_program.key().as_ref())]
pub program_state: AccountInfo<'info>,
#[account(address = anchor_spl::token::ID)]
pub token_program: Program<'info, Token>,
}
#[derive(Clone, AnchorSerialize, AnchorDeserialize)]
pub struct RequestResultParams {
pub permission_bump: u8,
pub switchboard_state_bump: u8,
}
impl RequestResult<'_> {
pub fn validate(&self, _ctx: &Context<Self>, _params: &RequestResultParams) -> Result<()> {
Ok(())
}
pub fn actuate(ctx: &Context<Self>, params: &RequestResultParams) -> Result<()> {
let client_state = ctx.accounts.state.load()?;
let bump = client_state.bump.clone();
let max_result = client_state.max_result.clone();
drop(client_state);
let switchboard_program = ctx.accounts.switchboard_program.to_account_info();
let vrf_request_randomness = VrfRequestRandomness {
authority: ctx.accounts.state.to_account_info(),
vrf: ctx.accounts.vrf.to_account_info(),
oracle_queue: ctx.accounts.oracle_queue.to_account_info(),
queue_authority: ctx.accounts.queue_authority.to_account_info(),
data_buffer: ctx.accounts.data_buffer.to_account_info(),
permission: ctx.accounts.permission.to_account_info(),
escrow: ctx.accounts.escrow.clone(),
payer_wallet: ctx.accounts.payer_wallet.clone(),
payer_authority: ctx.accounts.payer_authority.to_account_info(),
recent_blockhashes: ctx.accounts.recent_blockhashes.to_account_info(),
program_state: ctx.accounts.program_state.to_account_info(),
token_program: ctx.accounts.token_program.to_account_info(),
};
let vrf_key = ctx.accounts.vrf.key.clone();
let authority_key = ctx.accounts.authority.key.clone();
msg!("bump: {}", bump);
msg!("authority: {}", authority_key);
msg!("vrf: {}", vrf_key);
let state_seeds: &[&[&[u8]]] = &[&[
&STATE_SEED,
vrf_key.as_ref(),
authority_key.as_ref(),
&[bump],
]];
msg!("requesting randomness");
vrf_request_randomness.invoke_signed(
switchboard_program,
params.switchboard_state_bump,
params.permission_bump,
state_seeds,
)?;
emit!(RequestingRandomness{
vrf_client: ctx.accounts.state.key(),
max_result: max_result,
timestamp: clock::Clock::get().unwrap().unix_timestamp
});
msg!("randomness requested successfully");
Ok(())
}
}
let vrf_request_randomness = VrfRequestRandomness {
authority: ctx.accounts.state.to_account_info(),
vrf: ctx.accounts.vrf.to_account_info(),
oracle_queue: ctx.accounts.oracle_queue.to_account_info(),
queue_authority: ctx.accounts.queue_authority.to_account_info(),
data_buffer: ctx.accounts.data_buffer.to_account_info(),
permission: ctx.accounts.permission.to_account_info(),
escrow: ctx.accounts.escrow.clone(),
payer_wallet: ctx.accounts.payer_wallet.clone(),
payer_authority: ctx.accounts.payer_authority.to_account_info(),
recent_blockhashes: ctx.accounts.recent_blockhashes.to_account_info(),
program_state: ctx.accounts.program_state.to_account_info(),
token_program: ctx.accounts.token_program.to_account_info(),
};
let vrf_key = ctx.accounts.vrf.key.clone();
let authority_key = ctx.accounts.authority.key.clone();
msg!("bump: {}", bump);
msg!("authority: {}", authority_key);
msg!("vrf: {}", vrf_key);
let state_seeds: &[&[&[u8]]] = &[&[
&STATE_SEED,
vrf_key.as_ref(),
authority_key.as_ref(),
&[bump],
]];
msg!("requesting randomness");
vrf_request_randomness.invoke_signed(
switchboard_program,
params.switchboard_state_bump,
params.permission_bump,
state_seeds,
)?;