Arweave JS is the JavaScript/TypeScript SDK for interacting with the Arweave network and uploading data to the permaweb. It works in latest browsers and Node JS.
npm install --save arweave
Single bundle file (web only - use the NPM method if using Node).
<!-- Latest -->
<script src="https://unpkg.com/arweave/bundles/web.bundle.js"></script>
<!-- Latest, minified-->
<script src="https://unpkg.com/arweave/bundles/web.bundle.min.js"></script>
<!-- Specific version -->
<script src="https://unpkg.com/[email protected]/bundles/web.bundle.js"></script>
<!-- Specific version, minified -->
<script src="https://unpkg.com/[email protected]/bundles/web.bundle.min.js"></script>
const Arweave = require('arweave');
const arweave = Arweave.init({
host: '127.0.0.1',
port: 1984,
protocol: 'http'
});
import Arweave from 'arweave';
// Since v1.5.1 you're now able to call the init function for the web version without options. The current path will be used by default, recommended.
const arweave = Arweave.init();
// Or manually specify a host
const arweave = Arweave.init({
host: '127.0.0.1',
port: 1984,
protocol: 'http'
});
<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<title>Hello world</title>
<script src="https://unpkg.com/arweave/bundles/web.bundle.js"></script>
<script>
const arweave = Arweave.init();
arweave.network.getInfo().then(console.log);
</script>
</head>
<body>
</body>
</html>
{
host: 'arweave.net',// Hostname or IP address for a Arweave host
port: 443, // Port
protocol: 'https', // Network protocol http or https
timeout: 20000, // Network request timeouts in milliseconds
logging: false, // Enable network request logging
}
Here you can generate a new wallet address and private key (JWK), don't expose private keys or make them public as anyone with the key can use the corresponding wallet.
Make sure they're stored securely as they can never be recovered if lost.
Once AR has been sent to the address for a new wallet, the key can then be used to sign outgoing transactions.
arweave.wallets.generate().then((key) => {
console.log(key);
// {
// "kty": "RSA",
// "n": "3WquzP5IVTIsv3XYJjfw5L-t4X34WoWHwOuxb9V8w...",
// "e": ...
});
arweave.wallets.jwkToAddress(key).then((address) => {
console.log(address);
//1seRanklLU_1VTGkEk7P0xAwMJfA7owA1JHW5KyZKlY
});
Get the balance of a wallet address, all amounts by default are returned in winston.
arweave.wallets.getBalance('1seRanklLU_1VTGkEk7P0xAwMJfA7owA1JHW5KyZKlY').then((balance) => {
let winston = balance;
let ar = arweave.ar.winstonToAr(balance);
console.log(winston);
//125213858712
console.log(ar);
//0.125213858712
});
arweave.wallets.getLastTransactionID('1seRanklLU_1VTGkEk7P0xAwMJfA7owA1JHW5KyZKlY').then((transactionId) => {
console.log(transactionId);
//3pXpj43Tk8QzDAoERjHE3ED7oEKLKephjnVakvkiHF8
});
Transactions are the building blocks of the Arweave permaweb, they can send AR betwen wallet addresses, or store data on the Arweave network.
The create transaction methods create and return an unsigned transaction object. You must sign the transaction and submit it separeately using the transactions.sign
and transactions.submit
methods.
Modifying a transaction object after signing it will invalidate the signature, causing it to be rejected by the network if submitted in that state. Transaction prices are based on the size of the data field, so modifying the data field after a transaction has been created isn't recommended as you'll need to manually update the price.
The transaction ID is a hash of the transaction signature, so a transaction ID can't be known until its contents are finalised and it has been signed.
Data transactions are used to store data on the Arweave permaweb. They can contain HTML or any arbitrary data and are served like webpages.
let key = await arweave.wallets.generate();
// Plain text
let transactionA = await arweave.createTransaction({
data: '<html><head><meta charset="UTF-8"><title>Hello world!</title></head><body></body></html>'
}, key);
// Buffer
let transactionB = await arweave.createTransaction({
data: Buffer.from('Some data', 'utf8')
}, key);
console.log(transactionA);
// Transaction {
// format: 2,
// id: 'ReUohI9tEmXQ6EN9H9IkRjY9bSdgql_OdLUCOeMEte0',
// last_tx: 'Tk-0c7260Ya5zjfjzl4f6-W-vRO94qiqZMAScKBcYXc68v1Pd8bYfTbKWi7pepUF',
// owner: 'kmM4O08BJB85RbxfQ2nkka9VNO6Czm2Tc_IGQNYCTSXRzO...',
// tags: [],
// target: '',
// quantity: '0',
// data: 'c29tZSBkYXRh',
// data_size: '9',
// data_root: 'qwKZUl7qWpCEmB3cpONKTYOcSmnmhb-_s8ggMTZwCU4',
// data_tree: [],
// reward: '7489274',
// signature: 'JYdFPblDuT95ky7_wVss3Ax9e4Qygcd_lEcB07sDPUD_wNslOk...'
// }
Wallet to wallet transactions can facilitate payments from one wallet to another, given a target wallet and AR token quantity in Winston.
let key = await arweave.wallets.generate();
// Send 10.5 AR to 1seRanklLU_1VTGkEk7P0xAwMJfA7owA1JHW5KyZKlY
let transaction = await arweave.createTransaction({
target: '1seRanklLU_1VTGkEk7P0xAwMJfA7owA1JHW5KyZKlY',
quantity: arweave.ar.arToWinston('10.5')
}, key);
console.log(transaction);
// Transaction {
// format: 2,
// id: 'v-n7hAc7cubeXSClh0beaOs1RjYFagyvpl2TkUOfbRg',
// last_tx: 'Tk-0c7260Ya5zjfjzl4f6-W-vRO94qiqZMAScKBcYXc68v1Pd8bYfTbKWi7pepUF',
// owner: 'kmM4O08BJB85RbxfQ2nkka9VNO6Czm2Tc_IGQNYCTSXRzOc6W9b...',
// tags: [],
// target: '1seRanklLU_1VTGkEk7P0xAwMJfA7owA1JHW5KyZKlY',
// quantity: '10500000000000',
// data: '',
// data_size: '0',
// data_root: '',
// data_tree: [],
// reward: '7468335',
// signature: 'DnUOYbRSkhI4ZXg5fpYDCwPv8yvM5toAneSx4Jlg0zjIocqPs8giPP...'
// }
Metadata can be added to transactions through tags, these are simple key/value attributes that can be used to document the contents of a transaction or provide related data.
ARQL uses tags when searching for transactions.
The Content-Type
is a reserved tag and is used to set the data content type. For example, a transaction with HTML data and a content type tag of text/html
will be served as a HTML page and render correctly in browsers,
if the content type is set to text/plain
then it will be served as a plain text document and not render in browsers.
let key = await arweave.wallets.generate();
let transaction = await arweave.createTransaction({
data: '<html><head><meta charset="UTF-8"><title>Hello world!</title></head><body></body></html>',
}, key);
transaction.addTag('Content-Type', 'text/html');
transaction.addTag('key2', 'value2');
console.log(transaction);
// Transaction {
// format: 2,
// id: '',
// last_tx: 'Tk-0c7260Ya5zjfjzl4f6-W-vRO94qiqZMAScKBcYXc68v1Pd8bYfTbKWi7pepUF',
// owner: 'kmM4O08BJB85RbxfQ2nkka9VNO6Czm2Tc_IGQNYC...',
// tags: [
// Tag { name: 'Q29udGVudC1UeXBl', value: 'dGV4dC9odG1s' },
// Tag { name: 'a2V5Mg', value: 'dmFsdWUy' }
// ],
// target: '',
// quantity: '0',
// data: 'PGh0bWw-PGhlYWQ-PG1ldGEgY2hhcnNldD0iVVRGLTgiPjx0aXRsZT5IZWxsbyB3b3JsZCE8L3RpdGxlPjwvaGVhZD48Ym9keT48L2JvZHk-PC9odG1sPg',
// data_size: '88',
// data_root: 'GQunzmbwk2_JPU7oJOmLrTMvj8v_7BJaF0weyjVn5Nc',
// data_tree: [],
// reward: '7673074',
// signature: ''
// }
let key = await arweave.wallets.generate();
let transaction = await arweave.createTransaction({
target: '1seRanklLU_1VTGkEk7P0xAwMJfA7owA1JHW5KyZKlY',
quantity: arweave.ar.arToWinston('10.5')
}, key);
await arweave.transactions.sign(transaction, key);
console.log(transaction);
// Transaction {
// format: 2,
// id: 'v-n7hAc7cubeXSClh0beaOs1RjYFagyvpl2TkUOfbRg',
// last_tx: 'Tk-0c7260Ya5zjfjzl4f6-W-vRO94qiqZMAScKBcYXc68v1Pd8bYfTbKWi7pepUF',
// owner: 'kmM4O08BJB85RbxfQ2nkka9VNO6Czm2Tc_IGQNYCTSXRzOc6W9b...',
// tags: [],
// target: '1seRanklLU_1VTGkEk7P0xAwMJfA7owA1JHW5KyZKlY',
// quantity: '10500000000000',
// data: '',
// data_size: '0',
// data_root: '',
// data_tree: [],
// reward: '7468335',
// signature: 'DnUOYbRSkhI4ZXg5fpYDCwPv8yvM5toAneSx4Jlg0zjIocqPs8giPP...'
// }
The preferred method of submitting a data transaction is to use chunk uploading. This method will allow larger transaction sizes, resuming a transaction upload if it's interrupted and give progress updates while uploading.
Simple example:
let data = fs.readFileSync('path/to/file.pdf');
let transaction = await arweave.createTransaction({ data: data }, key);
transaction.addTag('Content-Type', 'application/pdf');
await arweave.transactions.sign(transaction, key);
let uploader = await arweave.transactions.getUploader(transaction);
while (!uploader.isComplete) {
await uploader.uploadChunk();
console.log(`${uploader.pctComplete}% complete, ${uploader.uploadedChunks}/${uploader.totalChunks}`);
}
You can also submit transactions using transactions.post()
which is suitable for small transactions or token transfers:
let key = await arweave.wallets.generate();
let transaction = await arweave.createTransaction({
target: '1seRanklLU_1VTGkEk7P0xAwMJfA7owA1JHW5KyZKlY',
quantity: arweave.ar.arToWinston('10.5')
}, key);
await arweave.transactions.sign(transaction, key);
const response = await arweave.transactions.post(transaction);
console.log(response.status);
// 200
// HTTP response codes (200 - ok, 400 - invalid transaction, 500 - error)
You can resume an upload from a saved uploader object, that you have persisted in storage some using JSON.stringify(uploader)
at any stage of the upload. To resume, parse it back into an object and pass it to getUploader()
along with the transactions data:
let data = fs.readFileSync('path/to/file.pdf'); // get the same data
let resumeObject = JSON.parse(savedUploader); // get uploader object from where you stored it.
let uploader = await arweave.transactions.getUploader(resumeObject, data);
while (!uploader.isComplete) {
await uploader.uploadChunk();
}
When resuming the upload, you must provide the same data as the original upload. When you serialize the uploader object with JSON.stringify()
to save it somewhere, it will not include the data.
You can also resume an upload from just the transaction ID and data, once it has been mined into a block. This can be useful if you didn't save the uploader somewhere but the upload got interrupted. This will re-upload all of the data from the beginning, since we don't know which parts have been uploaded:
let data = fs.readFileSync('path/to/file.pdf'); // get the same data
let resumeTxId = 'mytxid' // a transaction id for a mined transaction that didn't complete the upload.
let uploader = await arweave.transactions.getUploader(resumeTxId, data);
while (!uploader.isComplete) {
await uploader.uploadChunks();
console.log(`${progress.pctComplete}% complete`);
}
There is also an async iterator interface to chunk uploading, but this method means you'll need to ensure you are using a transpiler and polyfill for the asyncIterator symbol for some environments. (Safari on iOS in particular). This method takes the same arguments for uploading/resuming a transaction as getUploader()
and just has a slightly shorter syntax:
for await (const uploader of arweave.transactions.upload(tx)) {
console.log(`${uploader.pctComplete}% Complete`);
}
// done.
arweave.transactions.getStatus('bNbA3TEQVL60xlgCcqdz4ZPHFZ711cZ3hmkpGttDt_U').then(status => {
console.log(status);
// 200
})
Fetch a transaction from the connected arweave node. The data and tags are base64 encoded, these can be decoded using the built in helper methods.
Update since v1.9.0
Due to how the API has evolved over time and with larger transaction support, the data
field is no longer guaranteed to be returned from the network as part of the transaction json, therefore, it is not recommended that you use this function for fetching data anymore. You should update your applications to use arweave.transactions.getData()
instead, this will handle small transactions, as well as the reassembling of chunks for larger ones, it can also benefit from gateway optimisations.
const transaction = arweave.transactions.get('hKMMPNh_emBf8v_at1tFzNYACisyMQNcKzeeE1QE9p8').then(transaction => {
console.log(transaction);
// Transaction {
// 'format': 1,
// 'id': 'hKMMPNh_emBf8v_at1tFzNYACisyMQNcKzeeE1QE9p8',
// 'last_tx': 'GW7p6NoGJ495tAoUjU5GLxIH52gqOgk5j78gQv3j0ebvldAlw6VgIUv_lrMNGI72',
// 'owner': 'warLaSbicZm1nx9ucf-_5i91CWgmNOcnFJfyJdloCtsbenBhLrcGH472kKTZyuEAp2lSKlZ0NFCT2r2z-0...',
// 'tags': [
// {
// 'name': 'QXBwLU5hbWU',
// 'value': 'd2VpYm90LXNlYXJjaC13ZWlicw'
// }
// ],
// 'target': ',
// 'quantity': '0',
// 'data': 'iVBORw0KGgoAAAANSUhEUgAAArIAAADGCAYAAAAuVWN-AAAACXBIWXMAAAsSAAA...'
// 'data_size': '36795',
// 'data_tree': [],
// 'data_root': ',
// 'reward': '93077980',
// 'signature': 'RpohCHVl5vzGlG4R5ybeEuhs556Jv7rWOGaZCT69cpIei_j9b9sAetBlr0...'
// }
});
You can get the transaction data from a transaction ID without having to get the entire transaction
// Get the base64url encoded string
arweave.transactions.getData('bNbA3TEQVL60xlgCcqdz4ZPHFZ711cZ3hmkpGttDt_U').then(data => {
console.log(data);
// CjwhRE9DVFlQRSBodG1sPgo...
});
// Get the data decoded to a Uint8Array for binary data
arweave.transactions.getData('bNbA3TEQVL60xlgCcqdz4ZPHFZ711cZ3hmkpGttDt_U', {decode: true}).then(data => {
console.log(data);
// Uint8Array [10, 60, 33, 68, ...]
});
// Get the data decode as string data
arweave.transactions.getData('bNbA3TEQVL60xlgCcqdz4ZPHFZ711cZ3hmkpGttDt_U', {decode: true, string: true}).then(data => {
console.log(data);
// <!DOCTYPE HTML>...
});
const transaction = arweave.transactions.get('bNbA3TEQVL60xlgCcqdz4ZPHFZ711cZ3hmkpGttDt_U').then(transaction => {
transaction.get('tags').forEach(tag => {
let key = tag.get('name', {decode: true, string: true});
let value = tag.get('value', {decode: true, string: true});
console.log(`${key} : ${value}`);
});
// Content-Type : text/html
// User-Agent : ArweaveDeploy/1.1.0
});
Blocks are base elements of Arweave's blockweave data structure. Each block is linked to two prior blocks: the previous block in the "chain" (as with traditional blockchain protocols), and a block from the previous history of the blockchain (the "recall block"). Each block contains a list of zero to many transactions.
Gets block data for given independent hash (see page 63. of yellow-paper for details).
const result = await arweave.blocks.get("zbUPQFA4ybnd8h99KI9Iqh4mogXJibr0syEwuJPrFHhOhld7XBMOUDeXfsIGvYDp");
console.log(result)
// {
// "nonce": "6jdzO4FzS4EVaQVcLBEmxm6uN5-1tqBXW24Pzp6JsRQ",
// "previous_block": "iNgEv6vf9nIrxLWeEu-vPNHFftEh0kfOnx0qd6NKUOc8Z3WeMeOmAmdOHwSUFAGn",
// "timestamp": 1624183433,
// "last_retarget": 1624183433,
// "diff": "115792089220940710686296942055695413965527953310049630981189590430430626054144",
// "height": 711150,
// "hash": "_____8V8BkM8Cyja5ZFJcc7HfX33eM4BKDAvcEBn22s",
// "indep_hash": "zbUPQFA4ybnd8h99KI9Iqh4mogXJibr0syEwuJPrFHhOhld7XBMOUDeXfsIGvYDp",
// "txs": [ ...
Gets a block data for current block, i.e., block with indep_hash:
const {current} = await arweave.network.getInfo();
const result = await arweave.blocks.getCurrent();
console.log(result)
// {
// "indep_hash": "qoJwHSpzl6Ouo140HW2DTv1rGOrgfBEnHi5sHv-fJt_TsK7xA70F2QbjMCopLiMd",
// ...
Note: It is recommended to use GQL instead of ArQL
ArQL allows you to search for transactions by tags or by wallet address.
The allowed operators are and
, or
, and equals
which all accept exactly two expressions. Therefore, to and
three or more expressions together, you will need to nest and
expressions. The same goes for or
. Searching by wallet is done by using the special tag from
.
arweave.arql
takes the ArQL query as an object and returns the matching transaction IDs as an array of strings.
const txids = await arweave.arql({
op: "and",
expr1: {
op: "equals",
expr1: "from",
expr2: "hnRI7JoN2vpv__w90o4MC_ybE9fse6SUemwQeY8hFxM"
},
expr2: {
op: "or",
expr1: {
op: "equals",
expr1: "type",
expr2: "post"
},
expr2: {
op: "equals",
expr1: "type",
expr2: "comment"
}
}
})
console.log(txids)
// [
// 'TwS2G8mi5JGypMZO_EWtHKvrJkB76hXmWN3ROCjkLBc',
// 'urdjQI4iKo7l8xQ0A55G7bOM3oi4QdGAd7MeVE_ru5c',
// '_CD8p7z3uFJCB03OCMU7R80FTQ3ZRf8O2UGhNxoUaOg',
// ...
// ]
There are a number of community produced helper packages for building ArQL queries.
This software is released under MIT license. See LICENSE.md for full license details.