The TypeScript SDK allows you to connect, explore, and interact on the Aptos blockchain. You can use it to request data, send transactions, set up test environments, and more!
Install with your favorite package manager such as npm, yarn, or pnpm:
pnpm install @aptos-labs/ts-sdk
You can add the SDK to your web application using a script tag:
<script src="https://unpkg.com/@aptos-labs/ts-sdk/dist/browser/index.global.js" />
Then, the SDK can be accessed through window.aptosSDK
.
Create an Aptos
client in order to access the SDK's functionality.
import { Aptos, AptosConfig, Network } from "@aptos-labs/ts-sdk"
// You can use AptosConfig to choose which network to connect to
const config = new AptosConfig({ network: Network.TESTNET });
// Aptos is the main entrypoint for all functions
const aptos = new Aptos(config);
const fund = await aptos.getAccountInfo({ accountAddress: "0x123" });
const modules = await aptos.getAccountModules({ accountAddress: "0x123" });
const tokens = await aptos.getAccountOwnedTokens({ accountAddress: "0x123" });
Note: We introduce a Single Sender authentication (as introduced in AIP-55). Generating an account defaults to Legacy Ed25519 authentication with the option to use the Single Sender unified authentication.
const account = Account.generate(); // defaults to Legacy Ed25519
const account = Account.generate({ scheme: SigningSchemeInput.Secp256k1Ecdsa }); // Single Sender Secp256k1
const account = Account.generate({ scheme: SigningSchemeInput.Ed25519, legacy: false }); // Single Sender Ed25519
// Create a private key instance for Ed25519 scheme
const privateKey = new Ed25519PrivateKey("myEd25519privatekeystring");
// Or for Secp256k1 scheme
const privateKey = new Secp256k1PrivateKey("mySecp256k1privatekeystring");
// Derive an account from private key
// This is used as a local calculation and therefore is used to instantiate an `Account`
// that has not had its authentication key rotated
const account = await Account.fromPrivateKey({ privateKey });
// Also, can use this function that resolves the provided private key type and derives the public key from it
// to support key rotation and differentiation between Legacy Ed25519 and Unified authentications
// Read more https://github.com/aptos-labs/aptos-ts-sdk/blob/main/src/api/account.ts#L364
const aptos = new Aptos();
const account = await aptos.deriveAccountFromPrivateKey({ privateKey });
// Create a private key instance for Ed25519 scheme
const privateKey = new Ed25519PrivateKey("myEd25519privatekeystring");
// Or for Secp256k1 scheme
const privateKey = new Secp256k1PrivateKey("mySecp256k1privatekeystring");
// Derive an account from private key and address
// create an AccountAddress instance from the account address string
const address = AccountAddress.from("myaccountaddressstring");
// Derieve an account from private key and address
const account = await Account.fromPrivateKeyAndAddress({ privateKey, address });
const path = "m/44'/637'/0'/0'/1";
const mnemonic = "various float stumble...";
const account = Account.fromDerivationPath({ path, mnemonic });
/**
* This example shows how to use the Aptos SDK to send a transaction.
* Don't forget to install @aptos-labs/ts-sdk before running this example!
*/
import {
Account,
Aptos,
AptosConfig,
Network,
} from "@aptos-labs/ts-sdk";
async function example() {
console.log("This example will create two accounts (Alice and Bob) and send a transaction transfering APT to Bob's account.");
// 0. Setup the client and test accounts
const config = new AptosConfig({ network: Network.TESTNET });
const aptos = new Aptos(config);
let alice = Account.generate();
let bob = Account.generate();
console.log("=== Addresses ===\n");
console.log(`Alice's address is: ${alice.accountAddress}`);
console.log(`Bob's address is: ${bob.accountAddress}`);
console.log("\n=== Funding accounts ===\n");
await aptos.fundAccount({
accountAddress: alice.accountAddress,
amount: 100_000_000,
});
await aptos.fundAccount({
accountAddress: bob.accountAddress,
amount: 100,
});
console.log("Funded Alice and Bob's accounts!")
// 1. Build
console.log("\n=== 1. Building the transaction ===\n");
const transaction = await aptos.transaction.build.simple({
sender: alice.accountAddress,
data: {
// All transactions on Aptos are implemented via smart contracts.
function: "0x1::aptos_account::transfer",
functionArguments: [bob.accountAddress, 100],
},
});
console.log("Built the transaction!")
// 2. Simulate (Optional)
console.log("\n === 2. Simulating Response (Optional) === \n")
const [userTransactionResponse] = await aptos.transaction.simulate.simple({
signerPublicKey: alice.publicKey,
transaction,
});
console.log(userTransactionResponse)
// 3. Sign
console.log("\n=== 3. Signing transaction ===\n");
const senderAuthenticator = aptos.transaction.sign({
signer: alice,
transaction,
});
console.log("Signed the transaction!")
// 4. Submit
console.log("\n=== 4. Submitting transaction ===\n");
const submittedTransaction = await aptos.transaction.submit.simple({
transaction,
senderAuthenticator,
});
console.log(`Submitted transaction hash: ${submittedTransaction.hash}`);
// 5. Wait for results
console.log("\n=== 5. Waiting for result of transaction ===\n");
const executedTransaction = await aptos.waitForTransaction({ transactionHash: submittedTransaction.hash });
console.log(executedTransaction)
};
example();
If you see import error when you do this
import { Aptos, AptosConfig, Network } from "@aptos-labs/ts-sdk";
It could be your tsconfig.json
is not using node
. Make sure your moduleResolution
in the tsconfig.json
is set to node
instead of bundler
.
If you found a bug or would like to request a feature, please file an issue. If, based on the discussion on an issue you would like to offer a code change, please make a pull request. If neither of these describes what you would like to contribute, checkout out the contributing guide.