Welcome to the @ardrive/turbo-sdk
! This SDK provides functionality for interacting with the Turbo Upload and Payment Services and is available for both NodeJS and Web environments.
- Table of Contents
- Installation
- Quick Start
- Usage
- Logging
- APIs
- TurboFactory
- TurboUnauthenticatedClient
getSupportedCurrencies()
getSupportedCountries()
getFiatToAR({ currency })
getFiatRates()
getWincForFiat({ amount })
getWincForToken({ tokenAmount })
getTokenPriceForBytes({ byteCount })
getUploadCosts({ bytes })
uploadSignedDataItem({ dataItemStreamFactory, dataItemSizeFactory, signal })
createCheckoutSession({ amount, owner })
submitFundTransaction({ txId })
- TurboAuthenticatedClient
getBalance()
signer.getNativeAddress()
getWincForFiat({ amount, promoCodes })
createCheckoutSession({ amount, owner, promoCodes })
uploadFile({ fileStreamFactory, fileSizeFactory, signal, dataItemOpts })
uploadFolder({ folderPath, files, dataItemOpts, signal, maxConcurrentUploads, throwOnFailure, manifestOptions })
topUpWithTokens({ tokenAmount, feeMultiplier })
shareCredits({ approvedAddress, approvedWincAmount, expiresBySeconds })
revokeCredits({ approvedAddress })
getCreditShareApprovals({ userAddress })
- CLI
- Turbo Credit Sharing
- Developers
npm install @ardrive/turbo-sdk
or
yarn add @ardrive/turbo-sdk
import { TurboFactory, ArweaveSigner } from '@ardrive/turbo-sdk';
// load your JWK directly to authenticate
const jwk = fs.readFileSync('./my-jwk.json');
const address = arweave.wallets.jwkToAddress(jwk);
const turbo = TurboFactory.authenticated({ privateKey: jwk });
// or provide your own signer
const signer = new ArweaveSigner(jwk);
const turbo = TurboFactory.authenticated({ signer });
// get the wallet balance
const { winc: balance } = await turbo.getBalance();
// prep file for upload
const filePath = path.join(__dirname, './my-image.png');
const fileSize = fs.statSync(filePath).size;
// get the cost of uploading the file
const [{ winc: fileSizeCost }] = await turbo.getUploadCosts({
bytes: [fileSize],
});
// check if balance greater than upload cost
if (balance < fileSizeCost) {
const { url } = await turbo.createCheckoutSession({
amount: fileSizeCost,
owner: address,
// add a promo code if you have one
});
// open the URL to top-up, continue when done
open(url);
return;
}
// upload the file
try {
const { id, owner, dataCaches, fastFinalityIndexes } = await turbo.uploadFile(() => {
fileStreamFactory => () => fs.createReadStream(filePath),
fileSizeFactory => () => fileSize,
});
// upload complete!
console.log('Successfully upload data item!', { id, owner, dataCaches, fastFinalityIndexes });
} catch (error) {
// upload failed
console.error('Failed to upload data item!', error);
} finally {
const { winc: newBalance } = await turbo.getBalance();
console.log('New balance:', newBalance);
}
The SDK is provided in both CommonJS and ESM formats, and it's compatible with bundlers such as Webpack, Rollup, and ESbuild. Utilize the appropriately named exports provided by this SDK's package.json based on your project's configuration. Refer to the examples directory to see how to use the SDK in various environments.
CommonJS:
import { TurboFactory } from '@ardrive/turbo-sdk';
const turbo = TurboFactory.unauthenticated();
const rates = await turbo.getFiatRates();
Warning
Polyfills are not provided by default for bundled web projects (Vite, ESBuild, Webpack, Rollup, etc.) . Depending on your apps bundler configuration and plugins, you will need to provide polyfills for various imports including crypto
, process
, fs
and buffer
. Refer to your bundler's documentation for how to provide the necessary polyfills.
ESM:
import { TurboFactory } from '@ardrive/turbo-sdk/<node/web>';
const turbo = TurboFactory.unauthenticated();
const rates = await turbo.getFiatRates();
<script type="module">
import { TurboFactory } from 'https://unpkg.com/@ardrive/turbo-sdk';
const turbo = TurboFactory.unauthenticated();
const rates = await turbo.getFiatRates();
</script>
Example available in the examples/typescript/cjs.
Example available in the examples/typescript/esm.
The SDK provides TypeScript types. When you import the SDK in a TypeScript project:
import { TurboFactory } from '@ardrive/turbo-sdk/<node/web>';
Types are exported from ./lib/types/[node/web]/index.d.ts
and should be automatically recognized, offering benefits such as type-checking and autocompletion.
Examples are available in the examples directory. To run examples:
yarn example:web
- opens up the example web pageyarn example:cjs
- runs example CJS node scriptyarn example:esm
- runs example ESM node script
The SDK uses winston for logging. You can set the log level using the setLogLevel
method.
TurboFactory.setLogLevel('debug');
Creates an instance of a client that accesses Turbo's unauthenticated services.
const turbo = TurboFactory.unauthenticated();
Creates an instance of a client that accesses Turbo's authenticated and unauthenticated services. Requires either a signer, or private key to be provided.
const jwk = await arweave.crypto.generateJWK();
const turbo = TurboFactory.authenticated({ privateKey: jwk });
const signer = new ArweaveSigner(jwk);
const turbo = TurboFactory.authenticated({ signer });
const signer = new ArconnectSigner(window.arweaveWallet);
const turbo = TurboFactory.authenticated({ signer });
const signer = new EthereumSigner(privateKey);
const turbo = TurboFactory.authenticated({ signer });
const turbo = TurboFactory.authenticated({
privateKey: ethHexadecimalPrivateKey,
token: 'ethereum',
});
const turbo = TurboFactory.authenticated({
privateKey: ethHexadecimalPrivateKey,
token: 'pol',
});
const signer = new HexSolanaSigner(bs58.encode(secretKey));
const turbo = TurboFactory.authenticated({ signer });
const turbo = TurboFactory.authenticated({
privateKey: bs58.encode(secretKey),
token: 'solana',
});
const turbo = TurboFactory.authenticated({
privateKey: kyveHexadecimalPrivateKey,
token: 'kyve',
});
import { privateKeyFromKyveMnemonic } from '@ardrive/turbo-sdk';
const turbo = TurboFactory.authenticated({
privateKey: privateKeyFromKyveMnemonic(mnemonic),
token: 'kyve',
});
Returns the list of currencies supported by the Turbo Payment Service for topping up a user balance of AR Credits (measured in Winston Credits, or winc).
const currencies = await turbo.getSupportedCurrencies();
Returns the list of countries supported by the Turbo Payment Service's top up workflow.
const countries = await turbo.getSupportedCountries();
Returns the current raw fiat to AR conversion rate for a specific currency as reported by third-party pricing oracles.
const fiatToAR = await turbo.getFiatToAR({ currency: 'USD' });
Returns the current fiat rates for 1 GiB of data for supported currencies, including all top-up adjustments and fees.
const rates = await turbo.getFiatRates();
Returns the current amount of Winston Credits including all adjustments for the provided fiat currency.
const { winc, actualPaymentAmount, quotedPaymentAmount, adjustments } =
await turbo.getWincForFiat({
amount: USD(100),
});
Returns the current amount of Winston Credits including all adjustments for the provided token amount.
const { winc, actualTokenAmount, equivalentWincTokenAmount } =
await turbo.getWincForToken({
tokenAmount: WinstonToTokenAmount(100_000_000),
});
Get the current price from the Turbo Payment Service, denominated in the specified token, for uploading a specified number of bytes to Turbo.
const turbo = TurboFactory.unauthenticated({ token: 'solana' });
const { tokenPrice } = await turbo.getTokenPriceForBytes({
byteCount: 1024 * 1024 * 100,
});
console.log(tokenPrice); // Estimated SOL Price for 100 MiB
Returns the estimated cost in Winston Credits for the provided file sizes, including all upload adjustments and fees.
const [uploadCostForFile] = await turbo.getUploadCosts({ bytes: [1024] });
const { winc, adjustments } = uploadCostForFile;
Uploads a signed data item. The provided dataItemStreamFactory
should produce a NEW signed data item stream each time is it invoked. The dataItemSizeFactory
is a function that returns the size of the file. The signal
is an optional AbortSignal that can be used to cancel the upload or timeout the request.
const filePath = path.join(__dirname, './my-signed-data-item');
const dataItemSize = fs.statSync(filePath).size;
const uploadResponse = await turbo.uploadSignedDataItem({
dataItemStreamFactory: () => fs.createReadStream(filePath),
dataItemSizeFactory: () => dataItemSize,
signal: AbortSignal.timeout(10_000), // cancel the upload after 10 seconds
});
Creates a Stripe checkout session for a Turbo Top Up with the provided amount, currency, owner. The returned URL can be opened in the browser, all payments are processed by Stripe. To leverage promo codes, see TurboAuthenticatedClient.
const { url, winc, paymentAmount, quotedPaymentAmount, adjustments } =
await turbo.createCheckoutSession({
amount: USD(10.0), // $10.00 USD
owner: publicArweaveAddress,
// promo codes require an authenticated client
});
// Open checkout session in a browser
if (process.platform === 'darwin') {
// macOS
exec(`open ${url}`);
} else if (process.platform === 'win32') {
// Windows
exec(`start "" "${url}"`, { shell: true });
} else {
// Linux/Unix
open(url);
}
const turbo = TurboFactory.unauthenticated({ token: 'ethereum' });
const { url, winc, paymentAmount } = await turbo.createCheckoutSession({
amount: USD(10.0), // $10.00 USD
owner: publicEthereumAddress,
});
const turbo = TurboFactory.unauthenticated({ token: 'solana' });
const { url, winc, paymentAmount } = await turbo.createCheckoutSession({
amount: USD(10.0), // $10.00 USD
owner: publicSolanaAddress,
});
const turbo = TurboFactory.unauthenticated({ token: 'pol' });
const { url, winc, paymentAmount } = await turbo.createCheckoutSession({
amount: USD(10.0), // $10.00 USD
owner: publicPolygonAddress,
});
const turbo = TurboFactory.unauthenticated({ token: 'kyve' });
const { url, winc, paymentAmount } = await turbo.createCheckoutSession({
amount: USD(10.0), // $10.00 USD
owner: publicKyveAddress,
});
Submits the transaction ID of a funding transaction to Turbo Payment Service for top up processing. The txId
is the transaction ID of the transaction to be submitted.
Note
Use this API if you've already executed your token transfer to the Turbo wallet. Otherwise, consider using topUpWithTokens
to execute a new token transfer to the Turbo wallet and submit its resulting transaction ID for top up processing all in one go
const turbo = TurboFactory.unauthenticated(); // defaults to arweave token type
const { status, id, ...fundResult } = await turbo.submitFundTransaction({
txId: 'my-valid-arweave-fund-transaction-id',
});
Issues a signed request to get the credit balance of a wallet measured in AR (measured in Winston Credits, or winc).
const { winc: balance } = await turbo.getBalance();
Returns the native address of the connected signer.
const address = await turbo.signer.getNativeAddress();
Returns the current amount of Winston Credits including all adjustments for the provided fiat currency, amount, and optional promo codes.
const { winc, paymentAmount, quotedPaymentAmount, adjustments } =
await turbo.getWincForFiat({
amount: USD(100),
promoCodes: ['MY_PROMO_CODE'], // promo codes require an authenticated client
});
Creates a Stripe checkout session for a Turbo Top Up with the provided amount, currency, owner, and optional promo codes. The returned URL can be opened in the browser, all payments are processed by Stripe. Promo codes require an authenticated client.
const { url, winc, paymentAmount, quotedPaymentAmount, adjustments } =
await turbo.createCheckoutSession({
amount: USD(10.0), // $10.00 USD
owner: publicArweaveAddress,
promoCodes: ['MY_PROMO_CODE'], // promo codes require an authenticated client
});
// Open checkout session in a browser
if (process.platform === 'darwin') {
// macOS
exec(`open ${url}`);
} else if (process.platform === 'win32') {
// Windows
exec(`start "" "${url}"`, { shell: true });
} else {
// Linux/Unix
open(url);
}
Signs and uploads a raw file. The provided fileStreamFactory
should produce a NEW file data stream each time is it invoked. The fileSizeFactory
is a function that returns the size of the file. The signal
is an optional AbortSignal that can be used to cancel the upload or timeout the request. dataItemOpts
is an optional object that can be used to configure tags, target, and anchor for the data item upload.
const filePath = path.join(__dirname, './my-unsigned-file.txt');
const fileSize = fs.stateSync(filePath).size;
const uploadResult = await turbo.uploadFile({
fileStreamFactory: () => fs.createReadStream(filePath),
fileSizeFactory: () => fileSize,
dataItemOpts: {
// optional
tags: [
{
name: 'Content-Type',
value: 'text/plain',
},
{
name: 'My-Custom-Tag',
value: 'my-custom-value',
},
],
// no timeout or AbortSignal provided
},
});
uploadFolder({ folderPath, files, dataItemOpts, signal, maxConcurrentUploads, throwOnFailure, manifestOptions })
Signs and uploads a folder of files. For NodeJS, the folderPath
of the folder to upload is required. For the browser, an array of files
is required. The dataItemOpts
is an optional object that can be used to configure tags, target, and anchor for the data item upload. The signal
is an optional AbortSignal that can be used to cancel the upload or timeout the request. The maxConcurrentUploads
is an optional number that can be used to limit the number of concurrent uploads. The throwOnFailure
is an optional boolean that can be used to throw an error if any upload fails. The manifestOptions
is an optional object that can be used to configure the manifest file, including a custom index file, fallback file, or whether to disable manifests altogether. Manifests are enabled by default.
const folderPath = path.join(__dirname, './my-folder');
const { manifest, fileResponses, manifestResponse } = await turbo.uploadFolder({
folderPath,
dataItemOpts: {
// optional
tags: [
{
// User defined content type will overwrite file content type
name: 'Content-Type',
value: 'text/plain',
},
{
name: 'My-Custom-Tag',
value: 'my-custom-value',
},
],
// no timeout or AbortSignal provided
},
manifestOptions: {
// optional
indexFile: 'custom-index.html',
fallbackFile: 'custom-fallback.html',
disableManifests: false,
},
});
<input type="file" id="folder" name="folder" webkitdirectory />
<script type="module">
const folderInput = document.getElementById('folder');
folderInput.addEventListener('change', async (event) => {
const selectedFiles = folderInput.files;
console.log('Folder selected:', selectedFiles);
const { manifest, fileResponses, manifestResponse } =
await turbo.uploadFolder({
files: Array.from(selectedFiles).map((file) => file),
});
console.log(manifest, fileResponses, manifestResponse);
});
</script>
Tops up the connected wallet with Credits by submitting a payment transaction for the token amount to the Turbo wallet and then submitting that transaction id to Turbo Payment Service for top up processing.
- The
tokenAmount
is the amount of tokens in the token type's smallest unit value (e.g: Winston for arweave token type) to fund the wallet with. - The
feeMultiplier
(optional) is the multiplier to apply to the reward for the transaction to modify its chances of being mined. Credits will be added to the wallet balance after the transaction is confirmed on the given blockchain. Defaults to 1.0, meaning no multiplier.
const turbo = TurboFactory.authenticated({ signer, token: 'arweave' });
const { winc, status, id, ...fundResult } = await turbo.topUpWithTokens({
tokenAmount: WinstonToTokenAmount(100_000_000), // 0.0001 AR
feeMultiplier: 1.1, // 10% increase in reward for improved mining chances
});
const turbo = TurboFactory.authenticated({ signer, token: 'ethereum' });
const { winc, status, id, ...fundResult } = await turbo.topUpWithTokens({
tokenAmount: ETHToTokenAmount(0.00001), // 0.00001 ETH
});
const turbo = TurboFactory.authenticated({ signer, token: 'pol' });
const { winc, status, id, ...fundResult } = await turbo.topUpWithTokens({
tokenAmount: POLToTokenAmount(0.00001), // 0.00001 POL
});
const turbo = TurboFactory.authenticated({ signer, token: 'solana' });
const { winc, status, id, ...fundResult } = await turbo.topUpWithTokens({
tokenAmount: SOLToTokenAmount(0.00001), // 0.00001 SOL
});
const turbo = TurboFactory.authenticated({ signer, token: 'kyve' });
const { winc, status, id, ...fundResult } = await turbo.topUpWithTokens({
tokenAmount: KYVEToTokenAmount(0.00001), // 0.00001 KYVE
});
Shares credits from the connected wallet to the provided native address and approved winc amount. This action will create a signed data item for the approval
const { approvalDataItemId, approvedWincAmount } = await turbo.shareCredits({
approvedAddress: '2cor...VUa',
approvedWincAmount: 0.08315565032,
expiresBySeconds: 3600,
});
Revokes all credits shared from the connected wallet to the provided native address.
const revokedApprovals = await turbo.revokeCredits({
approvedAddress: '2cor...VUa',
});
Returns all given or received credit share approvals for the connected wallet or the provided native address.
const { givenApprovals, receivedApprovals } =
await turbo.getCreditShareApprovals({
userAddress: '2cor...VUa',
});
Global installation:
npm install -g @ardrive/turbo-sdk
or
yarn global add @ardrive/turbo-sdk
or install locally as a dev dependency:
npm install --save-dev @ardrive/turbo-sdk
or
yarn add -D @ardrive/turbo-sdk
turbo --help
or from local installation:
yarn turbo --help
npx turbo --help
Global options:
-V, --version
- output the version number-h, --help
- display help for command--dev
- Enable development endpoints (default: false)-g, --gateway <url>
- Set a custom crypto gateway URL--upload-url <url>
- Set a custom upload service URL--payment-url <url>
- Set a custom payment service URL-t, --token <token>
- Token type for the command or connected wallet (default: "arweave")
Wallet options:
-w, --wallet-file <filePath>
- Wallet file to use with the action. Formats accepted: JWK.json, KYVE, ETH, or POL private key as a string, or SOL Secret Key as a Uint8Array-m, --mnemonic <phrase>
- Mnemonic to use with the action (KYVE only)-p, --private-key <key>
- Private key to use with the action
Upload options:
--paid-by <paidBy...>
- A list of native addresses to pay for the upload.--ignore-approvals
- When no paid by is provided, the CLI will look for and use any received credit share approvals to pay for the upload. This flag will ignore any approvals and only use the connected wallet's balance for upload payment. Default: false--use-signer-balance-first
- Use the connected wallet's balance before using any credit share approvals for the upload. Default: false
Get the balance of a connected wallet or native address in Turbo Credits.
Command Options:
-a, --address <nativeAddress>
- Native address to get the balance of
e.g:
turbo balance --address 'crypto-wallet-public-native-address' --token solana
turbo balance --wallet-file '../path/to/my/wallet.json' --token arweave
Top up a connected wallet or native address with Turbo Credits using a supported fiat currency. This command will create a Stripe checkout session for the top-up amount and open the URL in the default browser.
Command Options:
-a, --address <nativeAddress>
- Native address to top up-c, --currency <currency>
- Currency to top up with-v, --value <value>
- Value of fiat currency for top up. e.g: 10.50 for $10.50 USD
e.g:
# Open Stripe hosted checkout session in browser to top up for 10.00 USD worth of Turbo Credits
turbo top-up --address 'crypto-wallet-public-native-address' --token ethereum --currency USD --value 10
Fund a wallet with Turbo Credits by submitting a payment transaction for the crypto amount to the Turbo wallet and then submitting that transaction id to Turbo Payment Service for top up processing. Alternatively, submit a transaction ID of an existing funding transaction to Turbo Payment Service for top up processing.
Command Options:
-v, --value <value>
- Value of crypto token for fund. e.g: 0.0001 for 0.0001 KYVE-i, --tx-id <txId>
- Transaction ID of an existing funding transaction
e.g:
turbo crypto-fund --value 0.0001 --token kyve --private-key 'b27...45c'
turbo crypto-fund --tx-id 'my-valid-arweave-fund-transaction-id' --token arweave
Upload a folder of files and create and upload a manifest file for the folder upload to the Turbo Upload Service.
Command Options:
-f, --folder-path <folderPath>
- Path to the folder to upload--index-file <indexFile>
- File to use for the "index" path in the resulting manifest--fallback-file <fallbackFile>
- File to use for the "fallback" path in the resulting manifest--no-manifest
- Disable manifest creation--max-concurrency <maxConcurrency>
- Maximum number of concurrent uploads
e.g:
turbo upload-folder --folder-path '../path/to/my/folder' --token solana --wallet-file ../path/to/sol/sec/key.json
Upload a file to the Turbo Upload Service.
Command Options:
-f, --file-path <filePath>
- Path to the file to upload
e.g:
turbo upload-file --file-path '../path/to/my/file.txt' --token ethereum --wallet-file ../path/to/eth/private/key.txt --paid-by '0x...first-payer-address' '0x...second-payer-address' '0x...third-payer-address' 'etc...'
Get the current credit price estimate from Turbo Payment Service for a given value and price type.
Command Options:
--value <value>
- Value to get the price for. e.g: 10.50 for $10.50 USD, 1024 for 1 KiB, 1.1 for 1.1 AR--type <type>
- Type of price to get. e.g: 'bytes', 'arweave', 'usd', 'kyve'. Default: 'bytes'
e.g:
turbo price --value 10.50 --type usd
turbo price --value 1024 --type bytes
turbo price --value 1.1 --type arweave
Get the current price from the Turbo Payment Service, denominated in the specified token, for uploading a specified number of bytes to Turbo.
Command Options:
--byte-count <byteCount>
- Byte value to get the token price for
e.g:
turbo token-price --byte-count 102400 --token solana
Shares credits from the connected wallet to the provided native address and approved winc amount.
Command Options:
-a, --address <nativeAddress>
- Native address to that will receive the Credits-v, --value <value>
- Value of winc to share to the target address-e, --expires-by-seconds <seconds>
- Expiry time in seconds for the credit share approval
e.g:
turbo share-credits --address 2cor...VUa --value 0.083155650320 --wallet-file ../path/to/my/wallet --expires-by-seconds 3600
Revoke all credits shared from the connected wallet to the provided native address.
Command Options:
-a, --address <nativeAddress>
- Native address to revoke credit share approvals for
e.g:
turbo revoke-credits --wallet-file ../path/to/my/wallet
List all given and received credit share approvals from the connected wallet or the provided native address.
Command Options:
-a, --address <nativeAddress>
- Native address to list credit share approvals for
e.g:
turbo list-shares --address 2cor...VUa --wallet-file ../path/to/my/wallet
Users can share their purchased Credits with other users' wallets by creating Credit Share Approvals. These approvals are created by uploading a signed data item with tags indicating the recipient's wallet address, the amount of Credits to share, and an optional amount of seconds that the approval will expire in. The recipient can then use the shared Credits to pay for their own uploads to Turbo.
Shared Credits cannot be re-shared by the recipient to other recipients. Only the original owner of the Credits can share or revoke Credit Share Approvals. Credits that are shared to other wallets may not be used by the original owner of the Credits for sharing or uploading unless the Credit Share Approval is revoked or expired.
Approvals can be revoked at any time by similarly uploading a signed data item with tags indicating the recipient's wallet address. This will remove all approvals and prevent the recipient from using the shared Credits. All unused Credits from expired or revoked approvals are returned to the original owner of the Credits.
To use the shared Credits, recipient users must provide the wallet address of the user who shared the Credits with them in the x-paid-by
HTTP header when uploading data. This tells Turbo services to look for and use Credit Share Approvals to pay for the upload before using the signer's balance.
For user convenience, during upload the Turbo CLI will use any available Credit Share Approvals found for the connected wallet before using the signing wallet's balance. To instead ignore all Credit shares and only use the signer's balance, use the --ignore-approvals
flag. To use the signer's balance first before using Credit shares, use the --use-signer-balance-first
flag. In contrast, the Turbo SDK layer does not provide this functionality and will only use approvals when paidBy
is provided.
The Turbo SDK provides the following methods to manage Credit Share Approvals:
shareCredits
: Creates a Credit Share Approval for the specified wallet address and amount of Credits.revokeCredits
: Revokes all Credit Share Approvals for the specified wallet address.listShares
: Lists all Credit Share Approvals for the specified wallet address or connected wallet.dataItemOpts: { ...opts, paidBy: string[] }
: Upload methods now accept 'paidBy', an array of wallet addresses that have provided credit share approvals to the user from which to pay, in the order provided and as necessary, for the upload.
The Turbo CLI provides the following commands to manage Credit Share Approvals:
share-credits
: Creates a Credit Share Approval for the specified wallet address and amount of Credits.revoke-credits
: Revokes all Credit Share Approvals for the specified wallet address.list-shares
: Lists all Credit Share Approvals for the specified wallet address or connected wallet.paidBy: --paid-by <paidBy...>
: Upload commands now accept '--paid-by', an array of wallet addresses that have provided credit share approvals to the user from which to pay, in the order provided and as necessary, for the upload.--ignore-approvals
: Ignore all Credit Share Approvals and only use the signer's balance.--use-signer-balance-first
: Use the signer's balance first before using Credit Share Approvals.
nvm
node
(>= 18)yarn
yarn install
- installs dependenciesyarn build
- builds web/node/bundled outputs
yarn test
- runs integration tests against dev environment (e.g.https://payment.ardrive.dev
andhttps://upload.ardrive.dev
)yarn test:docker
- runs integration tests against locally running docker containers (recommended)yarn example:web
- opens up the example web pageyarn example:cjs
- runs example CJS node scriptyarn example:esm
- runs example ESM node script
yarn lint:check
- checks for linting errorsyarn lint:fix
- fixes linting errorsyarn format:check
- checks for formatting errorsyarn format:fix
- fixes formatting errors
- Code to interfaces.
- Prefer type safety over runtime safety.
- Prefer composition over inheritance.
- Prefer integration tests over unit tests.
For more information on how to contribute, please see CONTRIBUTING.md.