Typescript SDK
Installation
To add the Renegade SDK to your project, install the required packages.
npm install @renegade-fi/node@latest @wagmi/core viem@2.x
This SDK is responsible for interacting with a relayer. Some actions, such as createWallet
or deposit
, require using your Ethereum wallet to sign messages or approve tokens. To perform these actions, we recommend using wagmi and viem.
Create Config
Create and export a new Renegade config using createConfig
.
import { createConfig } from "@renegade-fi/node"
import { createPublicClient, http } from 'viem'
import { arbitrum } from 'viem/chains'
const viemClient = createPublicClient({
chain: arbitrum,
transport: http()
})
export const config = createConfig({
darkPoolAddress: "0x30bd8eab29181f790d7e495786d4b96d7afdc518",
priceReporterUrl: "mainnet.price-reporter.renegade.fi",
relayerUrl: "mainnet.cluster0.renegade.fi",
viemClient,
})
Follow the instructions here to properly configure viemClient
for either the Arbitrum One chain or the Arbitrum Sepolia chain, depending on which environment you want to use.
darkPoolAddress
is the address of the darkpool proxy contract, not the implementation contract itself. You can find the darkpool proxy address for your environment here.
Use the SDK
Now, you can pass the config
to use actions.
import { backOfQueueWallet } from "@renegade-fi/node"
const wallet = await getBackOfQueueWallet(config)
console.log("Wallet balances: ", wallet.balances)
Environment Setup
We recommend using Node v22 as it provides a WebSocket client to Node.js without external dependencies. If you are on a lower version of Node, you should provide your own WebSocket client, such as ws
.
This SDK makes exclusive use of ES Modules. Check out this guide for more info on ESM support and Frequently Asked Questions across various tools and setups.
For Typescript configuration, check out this example repo for a reference tsconfig.json
.
Protocol Core Concepts
Relayer
A relayer node is resposible for the matching and settlement of orders. Each individual relayer manages one or more wallets, meaning they are able to view the plaintext wallet but are unable to modify a wallet. In order to modify a wallet (placing orders, depositing assets, etc.), users sign updates to their wallet state and queue asynchronous “tasks” in the relayer.
Relayers manage task queues for each wallet, which means you do not necessarily need to wait for a task to complete before creating a new task. This is why two functions exist for fetching a wallet's state: getWalletFromRelayer
(current wallet state) and getBackOfQueueWallet
(wallet state after current task queue is cleared).
Wallet
A wallet is a data structure that contains a user's balances, orders, and keys. To create a wallet, you must sign a message using your Ethereum wallet to generate a derivation key. This derivation key is used to derive the required fields of a wallet, such as the keychain. Learn more about keychains here.
SDK Core Concepts
Config
The Config
object is responsible for storing Renegade wallet state and internals. Most actions require a Config
object to be passed as the first argument, as it contains the derivation key used to derive keys used to sign API requests and wallet updates.
Auth Config
The AuthConfig
object is specifically used to interact with the relayer using API keys. If you are using a managed Renegade wallet, you will not need to interact with this object. If you are a permissioned user with API keys, you should follow the instructions here to create an AuthConfig
object.
Actions
This SDK exposes actions that are used to interact with a relayer, such as fetching a wallet's state or placing an order. Actions that access private wallet data require API authorization headers, which are automatically added for you when using the SDK. Browse the list of available actions below.
Types
This SDK provides types for various data structures used in the API.
Wallet
: contains a user's balances, orders, and keys.Order
: contains an order's parameters.Balance
: contains the amount of an ERC-20 token a user has in addition to the fee amount owed for that token.KeyChain
: contains a user's key hierarchy as defined here.OrderMetadata
: contains useful metadata such as the order's ID, status, creation time, andPartialOrderFills
since creation.Task
: contains a task's ID, status, type, and creation time.
Token
The Token
class is used to store ERC-20 token metadata. It encapsulates information such as the token's address, name, decimals, and ticker symbol. This metadata is sourced from the TOKEN_MAPPING
defined in your .env
file.
Import
import { Token } from "@renegade-fi/node"
Properties
address
: The address of the ERC-20 token.name
: The name of the token.decimals
: The number of decimals the token uses.ticker
: The ticker symbol of the token.
Static Methods
static findByTicker(ticker: string): Token
Returns
Token
- The Token instance matching the given ticker.
Throws
Error
- If no token with the given ticker is found in the TOKEN_MAPPING.
static findByAddress(address: `0x${string}`): Token
Returns
Token
- The Token instance matching the given address.
Throws
Error
- If no token with the given address is found in the TOKEN_MAPPING.
Usage
import { Token } from "@renegade-fi/node"
const usdc = Token.findByTicker("USDC")
console.log("USDC address: ", usdc.address)
const weth = Token.findByAddress("0xdf8d259c04020562717557f2b5a3cf28e92707d1")
console.log("WETH address: ", weth.address)
Configuration
createConfig
Import
import { createConfig } from "@renegade-fi/node"
Usage
import { createConfig } from "@renegade-fi/node"
import { createPublicClient, http } from 'viem'
import { arbitrum } from 'viem/chains'
const publicClient = createPublicClient({
chain: arbitrum,
transport: http()
})
export const config = createConfig({
darkPoolAddress: "0x30bd8eab29181f790d7e495786d4b96d7afdc518",
priceReporterUrl: "mainnet.price-reporter.renegade.fi",
relayerUrl: "mainnet.cluster0.renegade.fi",
viemClient: publicClient,
})
Parameters
- darkPoolAddress
0x${string}
- The darkpool contract’s address.
- priceReporterUrl
string
- The price reporter’s URL.
- relayerUrl
string
- The relayer’s URL.
- viemClient
PublicClient
- Viem client used for wallet specific tasks e.g. signing a message.
Return Type
import { type Config } from '@renegade-fi/node'
createAuthConfig
Import
import { createAuthConfig } from "@renegade-fi/node"
Usage
import { createAuthConfig } from "@renegade-fi/node"
export const config = createAuthConfig({
authServerUrl: "https://mainnet.auth-server.renegade.fi:3000",
apiKey: API_KEY,
apiSecret: API_SECRET,
});
Parameters
- authServerUrl
string
- The auth server’s URL.
- apiKey
string
- The API key. Used to authorize requests to the server.
- apiSecret
string
- The API secret. Used to sign requests to the server.
Return Type
import { type AuthConfig } from '@renegade-fi/node'
Actions
createWallet
Action for starting a create wallet
task on your connected relayer.
Import
import { createWallet } from "@renegade-fi/node"
Usage
import { createWallet, ROOT_KEY_MESSAGE_PREFIX } from "@renegade-fi/node"
import { privateKeyToAccount } from "viem/accounts"
import { arbitrum } from "viem/chains"
const account = privateKeyToAccount('0xac0974bec39a17e36ba4a6b4d238ff944bacb478cbed5efcae784d7bf4f2ff80')
const seed = await account.signMessage({
message: `${ROOT_KEY_MESSAGE_PREFIX} ${arbitrum.id}`,
})
config.setState((x) => ({ ...x, seed }))
await createWallet(config).then(() => console.log("Finished creating a wallet"))
Return Type
Promise<void>
Promise that resolves when the create wallet
task has finished and the wallet has successfully been fetched from the connected relayer.
Error
An error may be thrown if:
- a
seed
does not exist in the providedconfig
- a wallet with the same wallet ID already exists in the state of the connected relayer
lookupWallet
Action for starting a lookup wallet
task on your connected relayer.
Import
import { lookupWallet } from "@renegade-fi/node"
Usage
import { lookupWallet } from "@renegade-fi/node"
import { arbitrum } from "viem/chains"
config.setState((x) => ({ ...x, seed }))
await lookupWallet(config).then(() => console.log('Finished looking up wallet'))
Return Type
Promise<void>
Promise that resolves when the lookup wallet
task has finished and the wallet has successfully been fetched from the connected relayer.
Error
An error may be thrown if:
- a
seed
does not exist in the providedconfig
- a wallet with the same wallet ID already exists in the state of the connected relayer
- a wallet was not able to be found on-chain
getWalletFromRelayer
Action for fetching a wallet’s state from your connected relayer.
Import
import { getWalletFromRelayer } from "@renegade-fi/node"
Usage
const wallet = await getWalletFromRelayer(config)
console.log("Wallet balances: ", wallet.balances)
Return Type
Error
An error may be thrown if:
- a
seed
does not exist in the providedconfig
- the wallet is not currently indexed by your connected relayer, in which case you should
createWallet
orlookupWallet
- the API request authorization is incorrect / missing
getBackOfQueueWallet
Action for fetching the back of queue wallet state from your connected relayer.
Your connected relayer will manage a queue of tasks for you. By fetching the back of queue wallet, you are fetching your wallet state after all tasks in the queue have completed, which may not be the case. If a task fails, all subsequent tasks will transition to the Failed
state and your queue will be cleared.
Import
import { getBackOfQueueWallet } from "@renegade-fi/node"
Usage
const wallet = await getBackOfQueueWallet(config)
console.log("Wallet balances: ", wallet.balances)
Return Type
Error
An error may be thrown if:
- a
seed
does not exist in the providedconfig
- the wallet is not currently indexed by your connected relayer, in which case you should
createWallet
orlookupWallet
- the API request authorization is incorrect / missing
deposit
Action for starting a deposit
task on your connected relayer. Transfers ERC-20 tokens from your Arbitrum address to your Renegade wallet.
You most likely want to use executeDeposit
instead, as it will check for and execute ERC-20 allowances and permits as needed.
Import
import { deposit } from "@renegade-fi/node"
Usage
const { taskId } = await deposit(config, {
fromAddr: "0xd8dA6BF26964aF9D7eEd9e03E53415D37aA96045",
mint: "0xdf8d259c04020562717557f2b5a3cf28e92707d1",
amount: BigInt(1000000),
permitNonce: nonce,
permitDeadline: deadline,
permit: signature,
})
Parameters
- fromAddr
0x${string}
- Account to transfer ERC-20 from.
- mint
0x${string}
- ERC-20 contract address.
- amount
bigint
- Amount to deposit (should be multiplied by the number of decimals the ERC-20 supports)
- permitNonce
bigint
- A unique number, chosen by our app, to identify this permit. Once a permit is consumed, any other permit using that nonce will be invalid.
- permitDeadline
bigint
- The latest possible block timestamp for when this permit is valid.
- permit
0x${string}
- The corresponding EIP-712 signature for the permit2 message, signed by
owner
. If the recovered address from signature verification does not matchowner
, the call will fail.
Return Type
Promise<{ taskId: string }>
Promise that resolves to the ID of the deposit
task in the connected relayer.
Error
An error may be thrown if:
- a
seed
does not exist in the providedconfig
- the provided
mint
does not exist in the token mapping - the provided
amount
is less than the minimum transfer amount set by your connected relayer (currently 1 USDC) - the wallet update signature is incorrect / missing
- the Permit2 permit is incorrect / missing
- the API request authorization is incorrect / missing
executeDeposit
Action for starting a deposit
task on your connected relayer, sending a transaction to approve the ERC-20 and signing a Permit2 permit
if needed. Transfers ERC-20 tokens from your Arbitrum address to your Renegade wallet.
Import
import { executeDeposit } from "@renegade-fi/node"
Usage
import { createPublicClient, http } from "viem"
import { arbitrum } from "viem/chains"
import { createConfig as createWagmiConfig } from '@wagmi/core'
// Wagmi config
const viemConfig = createWagmiConfig({
chains: [arbitrum],
transports: {
[arbitrum.id]: http(),
},
})
const account = privateKeyToAccount('0xac0974bec39a17e36ba4a6b4d238ff944bacb478cbed5efcae784d7bf4f2ff80')
const walletClient = createWalletClient({
account,
chain: arbitrum,
transport: http()
})
await executeDeposit(config, {
mint: "0xdf8d259c04020562717557f2b5a3cf28e92707d1",
amount: BigInt(1000000),
permit2Address: "0x000000000022D473030F116dDEE9F6B43aC78BA3",
walletClient,
viemConfig,
awaitTask: true,
})
Parameters
- mint
0x${string}
- ERC-20 contract address.
- amount
bigint
- Amount to deposit (should be multiplied by the number of decimals the ERC-20 supports)
- permit2Address
0x${string}
- Permit2 contract address.
- walletClient
WalletClient
- viem Wallet Client used to sign messages.
- viemConfig
Config
- wagmi specific config for using wagmi actions
- awaitTask
boolean
- Whether or not to await task completion before resolving.
Return Type
Promise<{ taskId: string }>
Promise that resolves to the ID of the deposit
task in the connected relayer.
Error
An error may be thrown if:
- a
seed
does not exist in the providedconfig
- the provided
mint
does not exist in the token mapping - the provided
amount
is less than the minimum transfer amount set by your connected relayer (currently 1 USDC) - the provided wallet client is not configured properly
- the provided wagmi config is not configured properly
- the API request authorization is incorrect / missing
withdraw
Action for starting a withdraw
task on your connected relayer. Transfers ERC-20 tokens from your Renegade wallet to your Arbitrum address.
You most likely want to use executeWithdrawal
instead, as it will check for and pay fees if needed.
Import
import { payFees, withdraw } from "@renegade-fi/node"
Usage
import { payFees, withdraw } from "@renegade-fi/node"
await payFees(config)
await withdraw(config, {
mint: "0xdf8d259c04020562717557f2b5a3cf28e92707d1",
amount: BigInt(1000000),
destinationAddr: "0xd8dA6BF26964aF9D7eEd9e03E53415D37aA96045",
})
Parameters
- destinationAddr
0x${string}
- Account to transfer ERC-20 to.
- mint
- ERC-20 contract address.
- amount
bigint
- Amount to withdraw (must be multiplied by the number of decimals the ERC-20 supports)
Return Type
Promise<{ taskId: string }>
Promise that resolves to the ID of the withdraw
task in the connected relayer.
Error
An error may be thrown if:
- a
seed
does not exist in the providedconfig
- the provided
mint
does not exist in the token mapping - the provided
amount
is less than the minimum transfer amount set by your connected relayer (currently 1 USDC) - there exist one or more balances with non-zero fees, meaning you must pay fees
- the API request authorization is incorrect / missing
executeWithdrawal
Action for starting a withdraw
task on your connected relayer, paying fees if needed. Transfers ERC-20 tokens from your Renegade wallet to your Arbitrum address.
Import
import { executeWithdrawal } from "@renegade-fi/node"
Usage
await executeWithdrawal(config, {
destinationAddr: "0xd8dA6BF26964aF9D7eEd9e03E53415D37aA96045",
mint: "0xdf8d259c04020562717557f2b5a3cf28e92707d1",
amount: BigInt(1000000),
awaitTask: true,
})
Parameters
- destinationAddr
0x${string}
- Account to transfer ERC-20 to.
- mint
0x${string}
- ERC-20 contract address.
- amount
bigint
- Amount to withdraw (should be multiplied by the number of decimals the ERC-20 supports)
- awaitTask
boolean
- Whether or not to await task completion before resolving.
Return Type
Promise<{ taskId: string }>
Promise that resolves to the ID of the withdraw
task in the connected relayer.
Error
An error may be thrown if:
- a
seed
does not exist in the providedconfig
- the provided
mint
does not exist in the token mapping - the provided
amount
is less than the minimum transfer amount set by your connected relayer (currently 1 USDC) - the API request authorization is incorrect / missing
payFees
Action for starting necessary payFee
task(s) on your connected relayer.
You most likely will not invoke this function directly, as it is part of the executeWithdrawal
function.
Import
import { payFees } from "@renegade-fi/node"
Usage
await payFees(config)
Return Type
Promise<{ taskIds: string[] }>
Promise that resolves to an array of IDs of payFee
tasks in the connected relayer.
Error
An error may be thrown if:
- a
seed
does not exist in the providedconfig
- the API request authorization is incorrect / missing
createOrder
Action for starting a place order
task on your connected relayer.
Import
import { createOrder } from "@renegade-fi/node"
Usage
await createOrder(config, {
base: "0xcf8a4dbdc5c23a599bf045784b3740b1722c86dd",
quote: "0xdf8d259c04020562717557f2b5a3cf28e92707d1",
side: "buy",
amount: BigInt(1000000000000000000),
worstCasePrice: ((4000 * 1.5) * 10 ** (6 - 18)).toString(), // For a buy order: maximum price of 6000 USDC per ETH
minFillSize: BigInt(100000000000000000) // Minimum fill size of 0.1 ETH
})
Parameters
- base
0x${string}
- ERC-20 contract address of the base asset.
- quote
0x${string}
- ERC-20 contract address of the quote asset (must be USDC).
- side
"buy" | "sell"
- The side this order is for
- amount
bigint
- Amount to place the order for (should be multiplied by the number of decimals the ERC-20 supports)
- worstCasePrice (optional)
string
- A number formatted as a string representing the worst case price that the order may be executed at. For buy side orders this is a maximum price, for sell side orders this is a minimum price.
- If no worst case price is provided, the action will fall back to setting default values (
u64::MAX
for buy side orders and0
for sell side orders) - Value should be decimal corrected according to the token pair (e.g.
price * 10**(quoteDecimals - baseDecimals)
)
- minFillSize (optional)
bigint
- The minimum fill size for the order. It should be equal to or less than the amount.
- If not provided, it defaults to
BigInt(0)
, allowing any fill size.
Return Type
Promise<{ taskId: string }>
Promise that resolves to the ID of the place order
task in the connected relayer.
Error
An error may be thrown if:
- a
seed
does not exist in the providedconfig
- the provided
base
mint does not exist in the token mapping - the provided
quote
mint does not exist in the token mapping - the API request authorization is incorrect / missing
cancelOrder
Action for starting a cancel wallet
task on your connected relayer.
Import
import { cancelOrder } from "@renegade-fi/node"
Usage
await cancelOrder(config, {
id: "f801854d-b225-4855-926b-a24069446dfc",
})
Parameters
- id
string
- the ID of the order to cancel
Return Type
Promise<{ taskId: string }>
Promise that resolves to the ID of the cancel order
task in the connected relayer.
Error
An error may be thrown if:
- a
seed
does not exist in the providedconfig
- the provided
id
mint does not exist in the wallet's list of orders - the API request authorization is incorrect / missing
getOrderHistory
Action for fetching the order history of a wallet from your connected relayer.
Import
import { getOrderHistory } from "@renegade-fi/node"
Usage
await getOrderHistory(config, {
limit: 5
})
Parameters
- limit (optional)
number
- the number of orders to fetch
Return Type
Promise<Map<string, OrderMetadata>>
Promise that resolves to a Map where the keys are order IDs and the values are OrderMetadata
objects.
Error
An error may be thrown if:
- a
seed
does not exist in the providedconfig
- the API request authorization is incorrect / missing
External (Atomic) Matching
Renegade supports matching orders between two types of parties:
- Internal parties who have state committed to the darkpool
- External parties who have no state in the darkpool
When an external party wants to match with orders in the darkpool, they can request an ExternalMatchBundle
from the relayer. This bundle contains everything needed to execute the match on-chain, including:
- Match details (amounts and tokens involved)
- A ready-to-submit transaction that settles the match via direct ERC-20 transfers
External matches can be partially filled - you may receive a match for less than your requested amount, but it will never be less than your specified minFillSize
.
getExternalMatchBundle
Action for requesting an external match bundle from the relayer.
Prerequisites
Before executing an external match:
- Ensure you have sufficient token balance to fulfill your side of the trade
- Grant the darkpool contract approval to spend the tokens you're selling
- Have enough ETH for transaction gas fees
Flow
- Request an
ExternalMatchBundle
with your desired trade parameters - Review the returned match details to ensure they meet your requirements
- Submit the provided transaction to settle the match on-chain
- The protocol will:
- Update the internal party's state
- Execute the token transfers between parties
Import
import { getExternalMatchBundle } from "@renegade-fi/node"
Usage
const config = createAuthConfig({
authServerUrl: "https://mainnet.auth-server.renegade.fi:3000",
apiKey: API_KEY,
apiSecret: API_SECRET,
});
const bundle = await getExternalMatchBundle(config, {
base: "0xcf8a4dbdc5c23a599bf045784b3740b1722c86dd", // WETH
quote: "0xdf8d259c04020562717557f2b5a3cf28e92707d1", // USDC
side: "buy",
amount: BigInt(1000000000000000000), // 1 * 10^18
minFillSize: BigInt(100000000000000000) // Minimum fill size of 0.1 ETH
});
This action requires an AuthConfig
object instead of a Config
object. See here for more details
Parameters
- base
0x${string}
- ERC-20 contract address of the base asset.
- quote
0x${string}
- ERC-20 contract address of the quote asset (must be USDC).
- side
"buy" | "sell"
- The side this order is for
- amount
bigint
- Amount to place the order for (should be multiplied by the number of decimals the ERC-20 supports)
- minFillSize (optional)
bigint
- The minimum fill size for the order. It should be equal to or less than the amount.
- If not provided, it defaults to
BigInt(0)
, allowing any fill size.
Return Type
Promise<ExternalMatchBundle>
An ExternalMatchBundle
that contains:
- the result of the match, including the amount that is filled (will be at least the
minFillSize
and at most theamount
, partial fills are possible) - a transaction that can be submitted on-chain to settle the given external order
You are responsible for submitting the transaction request contained within the returned ExternalMatchBundle
to an RPC node. See the complete example below for how to execute the entire external matching flow.
Error
An error may be thrown if:
- the provided
base
mint does not exist in the token mapping - the provided
quote
mint does not exist in the token mapping - the API request authorization is incorrect / missing