Unofficial Hyperliquid API SDK for all major JS runtimes, written in TypeScript.
- 🖋️ Typed: Source code is 100% TypeScript.
- 🧪 Tested: Good code coverage and type relevance.
- 📦 Minimal dependencies: A few small trusted dependencies.
- 🌐 Cross-Environment Support: Compatible with all major JS runtimes.
- 🔧 Integratable: Easy to use with wallet providers (viem, ethers, private key directly).
- 📚 Documented: JSDoc annotations with usage examples in source code.
[!NOTE] While this library is in TypeScript, it can also be used in JavaScript and supports ESM/CommonJS.
npm i @nktkas/hyperliquid
pnpm add @nktkas/hyperliquid
yarn add @nktkas/hyperliquid
deno add jsr:@nktkas/hyperliquid
<script type="module">
import * as hl from "https://esm.sh/jsr/@nktkas/hyperliquid";
</script>For React Native, you need to import polyfills before importing the SDK:
// React Native v0.79 / Expo v53
// Issues:
// - signing: does not support private keys directly, use `viem` or `ethers`
import "event-target-polyfill";
if (!globalThis.CustomEvent) {
globalThis.CustomEvent = function (type, params) {
params = params || {};
const event = new Event(type, params);
event.detail = params.detail || null;
return event;
};
}
if (!AbortSignal.timeout) {
AbortSignal.timeout = function (delay) {
const controller = new AbortController();
setTimeout(() => controller.abort(), delay);
return controller.signal;
};
}
if (!Promise.withResolvers) {
Promise.withResolvers = function () {
let resolve, reject;
const promise = new Promise((res, rej) => {
resolve = res;
reject = rej;
});
return { promise, resolve, reject };
};
}// 1. Import module
import * as hl from "@nktkas/hyperliquid";
// 2. Set up client with transport
const infoClient = new hl.InfoClient({
transport: new hl.HttpTransport(), // or `WebSocketTransport`
});
// 3. Query data
const openOrders = await infoClient.openOrders({ user: "0x..." });// 1. Import module
import * as hl from "@nktkas/hyperliquid";
// 2. Set up client with wallet and transport
const exchClient = new hl.ExchangeClient({
wallet: "0x...", // `viem`, `ethers`, or private key directly
transport: new hl.HttpTransport(), // or `WebSocketTransport`
});
// 3. Execute an action
const result = await exchClient.order({
orders: [{
a: 0,
b: true,
p: "30000",
s: "0.1",
r: false,
t: {
limit: {
tif: "Gtc",
},
},
}],
grouping: "na",
});// 1. Import module
import * as hl from "@nktkas/hyperliquid";
// 2. Set up client with transport
const subsClient = new hl.SubscriptionClient({
transport: new hl.WebSocketTransport(),
});
// 3. Subscribe to events
const sub = await subsClient.allMids((event) => {
console.log(event);
});
await sub.unsubscribe();// 1. Import module
import * as hl from "@nktkas/hyperliquid";
// 2. Set up client with transport, multi-sign address, and signers
const multiSignClient = new hl.MultiSignClient({
transport: new hl.HttpTransport(), // or `WebSocketTransport`
multiSignAddress: "0x...",
signers: [
"0x...", // `viem`, `ethers`, or private key directly
],
});
// 3. Execute an action (same as `ExchangeClient`)
await multiSignClient.approveAgent({ agentAddress: "0x..." });First, choose and configure your transport layer (more details in the API Reference):
import * as hl from "@nktkas/hyperliquid";
// 1. HTTP Transport: suitable for one-time requests or serverless environments
const httpTransport = new hl.HttpTransport({...}); // Accepts optional parameters (e.g. isTestnet, timeout, etc.)
// 2. WebSocket Transport: has better network latency than HTTP transport
const wsTransport = new hl.WebSocketTransport({...}); // Accepts optional parameters (e.g. url, timeout, reconnect, etc.)Next, initialize a client with the transport layer (more details in the API Reference):
Create InfoClient
import * as hl from "@nktkas/hyperliquid";
const infoClient = new hl.InfoClient({
transport: new hl.HttpTransport(), // or `WebSocketTransport`
});Create ExchangeClient
import * as hl from "@nktkas/hyperliquid";
import { createWalletClient, custom } from "viem";
import { privateKeyToAccount } from "viem/accounts";
import { ethers } from "ethers";
const transport = new hl.HttpTransport(); // or `WebSocketTransport`
// 1. Using private key directly
const privateKey = "0x...";
const exchClient = new hl.ExchangeClient({ wallet: privateKey, transport });
// 2. Using Viem
const viemAccount = privateKeyToAccount("0x...");
const exchClient = new hl.ExchangeClient({ wallet: viemAccount, transport });
// 3. Using Ethers (V5 or V6)
const ethersWallet = new ethers.Wallet("0x...");
const exchClient = new hl.ExchangeClient({ wallet: ethersWallet, transport });
// 4. Using external wallet (e.g. MetaMask) via Viem
const [account] = await window.ethereum.request({ method: "eth_requestAccounts" }) as `0x${string}`[];
const externalWallet = createWalletClient({ account, transport: custom(window.ethereum) });
const exchClient = new hl.ExchangeClient({ wallet: externalWallet, transport });Create SubscriptionClient
import * as hl from "@nktkas/hyperliquid";
const subsClient = new hl.SubscriptionClient({
transport: new hl.WebSocketTransport(),
});Create MultiSignClient
import * as hl from "@nktkas/hyperliquid";
import { privateKeyToAccount } from "viem/accounts";
import { ethers } from "ethers";
const multiSignClient = new hl.MultiSignClient({
transport: new hl.HttpTransport(), // or `WebSocketTransport`
multiSignAddress: "0x...",
signers: [
privateKeyToAccount("0x..."), // first is leader for multi-sign transaction (signs transaction 2 times)
new ethers.Wallet("0x..."),
{ // can be a custom async wallet
async signTypedData(params: {
domain: {
name: string;
version: string;
chainId: number;
verifyingContract: Hex;
};
types: {
[key: string]: {
name: string;
type: string;
}[];
};
primaryType: string;
message: Record<string, unknown>;
}): Promise<Hex> {
// Custom signer logic
return "0x..."; // return hex signature
},
},
"0x...", // private key directly
// ... more signers
],
});Finally, use client methods to interact with the Hyperliquid API (more details in the API Reference):
Example of using an InfoClient
import * as hl from "@nktkas/hyperliquid";
const infoClient = new hl.InfoClient({
transport: new hl.HttpTransport(), // or `WebSocketTransport`
});
// L2 Book
const l2Book = await infoClient.l2Book({ coin: "ETH" });
// User clearinghouse state
const clearinghouseState = await infoClient.clearinghouseState({ user: "0x..." });
// User open orders
const openOrders = await infoClient.openOrders({ user: "0x..." });Example of using an ExchangeClient
import * as hl from "@nktkas/hyperliquid";
const exchClient = new hl.ExchangeClient({
wallet: "0x...", // `viem`, `ethers`, or private key directly
transport: new hl.HttpTransport(), // or `WebSocketTransport`
});
// Place an orders
const result = await exchClient.order({
orders: [{
a: 0,
b: true,
p: "30000",
s: "0.1",
r: false,
t: {
limit: {
tif: "Gtc",
},
},
}],
grouping: "na",
});
// Approve an agent
const result = await exchClient.approveAgent({ agentAddress: "0x..." });
// Withdraw funds
const result = await exchClient.withdraw3({ destination: "0x...", amount: "100" });Example of using a SubscriptionClient
import * as hl from "@nktkas/hyperliquid";
const subsClient = new hl.SubscriptionClient({
transport: new hl.WebSocketTransport(),
});
// L2 Book updates
await subsClient.l2Book({ coin: "ETH" }, (data) => {
console.log(data);
});
// User fills
await subsClient.userFills({ user: "0x..." }, (data) => {
console.log(data);
});
// Candle updates
await subsClient.candle({ coin: "ETH", interval: "1h" }, (data) => {
console.log(data);
});Example of using a MultiSignClient
import * as hl from "@nktkas/hyperliquid";
const multiSignClient = new hl.MultiSignClient({
transport: new hl.HttpTransport(), // or `WebSocketTransport`
multiSignAddress: "0x...",
signers: [
"0x...", // `viem`, `ethers`, or private key directly
// ... more signers
],
});
// Interaction is the same as with `ExchangeClient`A client is an interface through which you can interact with the Hyperliquid API.
class InfoClient {
constructor(args: {
transport: HttpTransport | WebSocketTransport;
});
// Market
allMids(): Promise<AllMids>;
candleSnapshot(args: CandleSnapshotParameters): Promise<Candle[]>;
fundingHistory(args: FundingHistoryParameters): Promise<FundingHistory[]>;
l2Book(args: L2BookParameters): Promise<Book>;
liquidatable(): Promise<unknown[]>;
marginTable(args: MarginTableParameters): Promise<MarginTable>;
maxMarketOrderNtls(): Promise<[number, string][]>;
meta(): Promise<PerpsMeta>;
metaAndAssetCtxs(): Promise<PerpsMetaAndAssetCtxs>;
perpDeployAuctionStatus(): Promise<DeployAuctionStatus>;
perpDexs(): Promise<(PerpDex | null)[]>;
perpsAtOpenInterestCap(): Promise<string[]>;
predictedFundings(): Promise<PredictedFunding[]>;
spotDeployState(args: SpotDeployStateParameters): Promise<SpotDeployState>;
spotMeta(): Promise<SpotMeta>;
spotMetaAndAssetCtxs(): Promise<SpotMetaAndAssetCtxs>;
spotPairDeployAuctionStatus(): Promise<DeployAuctionStatus>;
tokenDetails(args: TokenDetailsParameters): Promise<TokenDetails>;
// Account
activeAssetData(args: ActiveAssetDataParameters): Promise<ActiveAssetData>;
clearinghouseState(args: ClearinghouseStateParameters): Promise<PerpsClearinghouseState>;
extraAgents(args: ExtraAgentsParameters): Promise<ExtraAgent[]>;
isVip(args: IsVipParameters): Promise<boolean>;
legalCheck(args: LegalCheckParameters): Promise<LegalCheck>;
maxBuilderFee(args: MaxBuilderFeeParameters): Promise<number>;
portfolio(args: PortfolioParameters): Promise<PortfolioPeriods>;
preTransferCheck(args: PreTransferCheckParameters): Promise<PreTransferCheck>;
referral(args: ReferralParameters): Promise<Referral>;
spotClearinghouseState(args: SpotClearinghouseStateParameters): Promise<SpotClearinghouseState>;
subAccounts(args: SubAccountsParameters): Promise<SubAccount[] | null>;
userFees(args: UserFeesParameters): Promise<UserFees>;
userFunding(args: UserFundingParameters): Promise<UserFundingUpdate[]>;
userNonFundingLedgerUpdates(args: UserNonFundingLedgerUpdatesParameters): Promise<UserNonFundingLedgerUpdate[]>;
userRateLimit(args: UserRateLimitParameters): Promise<UserRateLimit>;
userRole(args: UserRoleParameters): Promise<UserRole>;
userToMultiSigSigners(args: UserToMultiSigSignersParameters): Promise<MultiSigSigners | null>;
// Order
frontendOpenOrders(args: FrontendOpenOrdersParameters): Promise<FrontendOrder[]>;
historicalOrders(args: HistoricalOrdersParameters): Promise<OrderStatus<FrontendOrder>[]>;
openOrders(args: OpenOrdersParameters): Promise<Order[]>;
orderStatus(args: OrderStatusParameters): Promise<OrderLookup>;
twapHistory(args: TwapHistoryParameters): Promise<TwapHistory[]>;
userFills(args: UserFillsParameters): Promise<Fill[]>;
userFillsByTime(args: UserFillsByTimeParameters): Promise<Fill[]>;
userTwapSliceFills(args: UserTwapSliceFillsParameters): Promise<TwapSliceFill[]>;
userTwapSliceFillsByTime(args: UserTwapSliceFillsByTimeParameters): Promise<TwapSliceFill[]>;
// Validator
delegations(args: DelegationsParameters): Promise<Delegation[]>;
delegatorHistory(args: DelegatorHistoryParameters): Promise<DelegatorUpdate[]>;
delegatorRewards(args: DelegatorRewardsParameters): Promise<DelegatorReward[]>;
delegatorSummary(args: DelegatorSummaryParameters): Promise<DelegatorSummary>;
validatorL1Votes(): Promise<unknown[]>;
validatorSummaries(): Promise<ValidatorSummary[]>;
// Vault
leadingVaults(args: LeadingVaultsParameters): Promise<VaultLeading[]>;
userVaultEquities(args: UserVaultEquitiesParameters): Promise<VaultEquity[]>;
vaultDetails(args: VaultDetailsParameters): Promise<VaultDetails | null>;
vaultSummaries(): Promise<VaultSummary[]>;
// Server
exchangeStatus(): Promise<ExchangeStatus>;
// Explorer (RPC endpoint)
blockDetails(args: BlockDetailsParameters): Promise<BlockDetails>;
txDetails(args: TxDetailsParameters): Promise<TxDetails>;
userDetails(args: UserDetailsParameters): Promise<TxDetails[]>;
}class ExchangeClient {
constructor(args: {
transport: HttpTransport | WebSocketTransport;
wallet: AbstractWallet; // `viem`, `ethers` (v5 or v6), or private key directly
isTestnet?: boolean; // Whether to use testnet (default: false)
defaultVaultAddress?: Hex; // Vault address used by default if not provided in method call
signatureChainId?: Hex | (() => MaybePromise<Hex>); // Chain ID used for signing (default: get chain id from wallet otherwise `0x1`)
nonceManager?: () => MaybePromise<number>; // Function to get the next nonce (default: monotonically incrementing `Date.now()`)
});
// Order
batchModify(args: BatchModifyParameters): Promise<OrderResponseSuccess>;
cancel(args: CancelParameters): Promise<CancelResponseSuccess>;
cancelByCloid(args: CancelByCloidParameters): Promise<CancelResponseSuccess>;
modify(args: ModifyParameters): Promise<SuccessResponse>;
order(args: OrderParameters): Promise<OrderResponseSuccess>;
scheduleCancel(args?: ScheduleCancelParameters): Promise<SuccessResponse>;
twapCancel(args: TwapCancelParameters): Promise<TwapCancelResponseSuccess>;
twapOrder(args: TwapOrderParameters): Promise<TwapOrderResponseSuccess>;
updateIsolatedMargin(args: UpdateIsolatedMarginParameters): Promise<SuccessResponse>;
updateLeverage(args: UpdateLeverageParameters): Promise<SuccessResponse>;
// Account
approveAgent(args: ApproveAgentParameters): Promise<SuccessResponse>;
approveBuilderFee(args: ApproveBuilderFeeParameters): Promise<SuccessResponse>;
claimRewards(): Promise<SuccessResponse>;
createSubAccount(args: CreateSubAccountParameters): Promise<CreateSubAccountResponse>;
evmUserModify(args: EvmUserModifyParameters): Promise<SuccessResponse>;
noop(): Promise<SuccessResponse>;
registerReferrer(args: RegisterReferrerParameters): Promise<SuccessResponse>;
reserveRequestWeight(args: ReserveRequestWeightParameters): Promise<SuccessResponse>;
setDisplayName(args: SetDisplayNameParameters): Promise<SuccessResponse>;
setReferrer(args: SetReferrerParameters): Promise<SuccessResponse>;
subAccountModify(args: SubAccountModifyParameters): Promise<SuccessResponse>;
spotUser(args: SpotUserParameters): Promise<SuccessResponse>;
// Transfer
sendAsset(args: SendAssetParameters): Promise<SuccessResponse>;
spotSend(args: SpotSendParameters): Promise<SuccessResponse>;
subAccountSpotTransfer(args: SubAccountSpotTransferParameters): Promise<SuccessResponse>;
subAccountTransfer(args: SubAccountTransferParameters): Promise<SuccessResponse>;
usdClassTransfer(args: UsdClassTransferParameters): Promise<SuccessResponse>;
usdSend(args: UsdSendParameters): Promise<SuccessResponse>;
withdraw3(args: Withdraw3Parameters): Promise<SuccessResponse>;
// Staking
cDeposit(args: CDepositParameters): Promise<SuccessResponse>;
cWithdraw(args: CWithdrawParameters): Promise<SuccessResponse>;
tokenDelegate(args: TokenDelegateParameters): Promise<SuccessResponse>;
// Market
perpDeploy(args: PerpDeployParameters): Promise<SuccessResponse>;
spotDeploy(args: SpotDeployParameters): Promise<SuccessResponse>;
// Vault
createVault(args: CreateVaultParameters): Promise<CreateVaultResponse>;
vaultDistribute(args: VaultDistributeParameters): Promise<SuccessResponse>;
vaultModify(args: VaultModifyParameters): Promise<SuccessResponse>;
vaultTransfer(args: VaultTransferParameters): Promise<SuccessResponse>;
// Multi-Sign
convertToMultiSigUser(args: ConvertToMultiSigUserParameters): Promise<SuccessResponse>;
multiSig(args: MultiSigParameters): Promise<BaseExchangeResponse>;
// Validator
cSignerAction(args: CSignerActionParameters): Promise<SuccessResponse>;
cValidatorAction(args: CValidatorActionParameters): Promise<SuccessResponse>;
}class SubscriptionClient {
constructor(args: {
transport: WebSocketTransport;
});
// Market
activeAssetCtx(args: EventActiveAssetCtxParameters, listener: (data: WsActiveAssetCtx | WsActiveSpotAssetCtx) => void): Promise<Subscription>;
allMids(listener: (data: WsAllMids) => void): Promise<Subscription>;
bbo(args: EventBboParameters, listener: (data: WsBbo) => void): Promise<Subscription>;
candle(args: EventCandleParameters, listener: (data: Candle) => void): Promise<Subscription>;
l2Book(args: EventL2BookParameters, listener: (data: Book) => void): Promise<Subscription>;
trades(args: EventTradesParameters, listener: (data: WsTrade[]) => void): Promise<Subscription>;
// Account
activeAssetData(args: EventActiveAssetDataParameters, listener: (data: ActiveAssetData) => void): Promise<Subscription>;
notification(args: EventNotificationParameters, listener: (data: WsNotification) => void): Promise<Subscription>;
userEvents(args: EventUserEventsParameters, listener: (data: WsUserEvent) => void): Promise<Subscription>;
userFundings(args: EventUserFundingsParameters, listener: (data: WsUserFundings) => void): Promise<Subscription>;
userNonFundingLedgerUpdates(args: EventUserNonFundingLedgerUpdatesParameters, listener: (data: WsUserNonFundingLedgerUpdates) => void): Promise<Subscription>;
webData2(args: EventWebData2Parameters, listener: (data: WsWebData2) => void): Promise<Subscription>;
// Order
orderUpdates(args: EventOrderUpdatesParameters, listener: (data: OrderStatus<Order>[]) => void): Promise<Subscription>;
userFills(args: EventUserFillsParameters, listener: (data: WsUserFills) => void): Promise<Subscription>;
userTwapHistory(args: EventUserTwapHistory, listener: (data: WsUserTwapHistory) => void): Promise<Subscription>;
userTwapSliceFills(args: EventUserTwapSliceFills, listener: (data: WsUserTwapSliceFills) => void): Promise<Subscription>;
// Explorer (RPC endpoint)
explorerBlock(listener: (data: WsBlockDetails[]) => void): Promise<Subscription>;
explorerTxs(listener: (data: TxDetails[]) => void): Promise<Subscription>;
}class MultiSignClient extends ExchangeClient {
constructor(
args:
& Omit<ExchangeClientParameters, "wallet"> // instead of `wallet`, you should specify the following parameters:
& {
multiSignAddress: Hex;
signers: [
AbstractWallet, // first is leader for multi-sign transaction (signs transaction 2 times)
...AbstractWallet[], // may be additional signers
];
},
);
// Same methods as `ExchangeClient`
}Transport acts as a layer between class requests and Hyperliquid servers.
Features:
- Uses fetch for requests. Can be configured using
fetchOptions. - Automatically determines the target URL based on the request +
isTestnetflag.
class HttpTransport {
constructor(options?: {
isTestnet?: boolean; // Whether to use testnet url (default: false)
timeout?: number; // Request timeout in ms (default: 10_000)
server?: { // Custom server URLs
mainnet?: { api?: string | URL; rpc?: string | URL };
testnet?: { api?: string | URL; rpc?: string | URL };
};
fetchOptions?: RequestInit; // A custom fetch options
onRequest?: (request: Request) => MaybePromise<Request | void | null | undefined>; // A callback before request is sent
onResponse?: (response: Response) => MaybePromise<Response | void | null | undefined>; // A callback after response is received
});
}Features:
- Uses WebSocket for requests.
- Supports subscriptions and post requests.
- Automatically restores connection after loss and resubscribes to previous subscriptions.
- Smart keep alive (pings only when idle).
- Lazy initialization with message buffering during connection establishment.
Limitations:
- Cannot mix api/explorer endpoints or mainnet/testnet in single connection. Need to create separate instances for different endpoints.
- Cannot send explorer post-requests via WebSocket. Use HTTP transport.
class WebSocketTransport {
constructor(options?: {
url?: string | URL; // WebSocket URL (default: "wss://api.hyperliquid.xyz/ws")
timeout?: number; // Request timeout in ms (default: 10_000)
keepAlive?: {
interval?: number; // Ping interval in ms (default: 30_000)
timeout?: number; // Pong timeout in ms (default: same as `timeout` for requests)
};
reconnect?: {
maxRetries?: number; // Maximum number of reconnection attempts (default: 3)
connectionTimeout?: number; // Connection timeout in ms (default: 10_000)
connectionDelay?: number | ((attempt: number) => number | Promise<number>); // Delay between reconnection (default: Exponential backoff (max 10s))
shouldReconnect?: (event: CloseEvent) => boolean | Promise<boolean>; // Custom reconnection logic (default: Always reconnect)
messageBuffer?: MessageBufferStrategy; // Message buffering strategy between reconnection (default: FIFO buffer)
};
autoResubscribe?: boolean; // Whether to automatically resubscribe to events after reconnection (default: true)
});
ready(signal?: AbortSignal): Promise<void>;
close(signal?: AbortSignal): Promise<void>;
}The import point gives access to all request/response types associated with Hyperliquid API.
The import point gives access to functions that generate signatures for Hyperliquid API actions.
import { actionSorter, signL1Action } from "@nktkas/hyperliquid/signing";
const action = actionSorter.cancel({
type: "cancel",
cancels: [
{ a: 0, o: 12345 },
],
});
const nonce = Date.now();
const signature = await signL1Action({
wallet: "0x...", // `viem`, `ethers`, or private key directly
action,
nonce,
});
// Send the signed action to the Hyperliquid API
const response = await fetch("https://api.hyperliquid.xyz/exchange", {
method: "POST",
headers: { "Content-Type": "application/json" },
body: JSON.stringify({ action, signature, nonce }), // recommended to send the same formatted action
});
const body = await response.json();import { actionSorter, signUserSignedAction, userSignedActionEip712Types } from "@nktkas/hyperliquid/signing";
const action = actionSorter.approveAgent({
type: "approveAgent",
signatureChainId: "0x66eee",
hyperliquidChain: "Mainnet",
agentAddress: "0x...",
agentName: "Agent",
nonce: Date.now(),
});
const signature = await signUserSignedAction({
wallet: "0x...", // `viem`, `ethers`, or private key directly
action,
types: userSignedActionEip712Types[action.type],
});
// Send the signed action to the Hyperliquid API
const response = await fetch("https://api.hyperliquid.xyz/exchange", {
method: "POST",
headers: { "Content-Type": "application/json" },
body: JSON.stringify({ action, signature, nonce: action.nonce }), // recommended to send the same formatted action
});
const body = await response.json();Hyperliquid requires chain 1337 for L1 action signatures. To handle this with external wallets:
- (recommended) Create an Agent Wallet and execute all L1 actions through it
- Change a user's chain to
1337, however, the user will sign unreadable data
Hyperliquid doesn't have traditional market orders, but you can achieve market-like execution by placing limit order
with tif: "Ioc" and price that guarantee immediate execution:
- For buys: set limit price >= current best ask
- For sells: set limit price <= current best bid
How to use the Agent Wallet / Vault / Sub-Account in ExchangeClient?
Agent Wallet: Use agent's private key in constructor instead of master account's private key.
Vault and Sub-Account: Pass vault or sub-account address via vaultAddress options to methods or set
defaultVaultAddress in constructor.
We appreciate your help! To contribute, please read the contributing instructions.