Typescript library to aid dApp development on VeChainThor.
This repository now has reached its end-of-life (EOL). We have transitioned to brand new and comprehensive VeChain SDK that will continue to receive updates, support, and new features.
For any further questions or migration guidance, please reach out using our support portal.
To install the library, run:
npm i thor-devkitTo build and sign a transaction:
import { Transaction, secp256k1 } from 'thor-devkit'
const clauses = [{
to: '0x7567d83b7b8d80addcb281a71d54fc7b3364ffed',
value: 10000,
data: '0x'
}]
// calc intrinsic gas
const gas = Transaction.intrinsicGas(clauses)
console.log(gas)
// 21000
let body: Transaction.LegacyBody = {
type: Transaction.Type.Legacy,
chainTag: 0x9a,
blockRef: '0x0000000000000000',
expiration: 32,
clauses: clauses,
gasPriceCoef: 128,
gas,
dependsOn: null,
nonce: 12345678
}
const tx = new Transaction(body)
const signingHash = tx.signingHash()
tx.signature = secp256k1.sign(signingHash, /* your private key */)
const raw = tx.encode()
const decoded = Transaction.decode(raw)
// To create a dynamic fee transaction, use the following:
let body = {
type: Transaction.Type.DynamicFee,
chainTag: 0x9a,
blockRef: '0x0000000000000000',
clauses: clauses,
maxPriorityFeePerGas: 1000000000000,
maxFeePerGas: 1200000000000,
gas,
dependsOn: null,
nonce: 12345678
}
const tx = new Transaction(body)
const signingHash = tx.signingHash()
tx.signature = secp256k1.sign(signingHash, /* your private key */)
const raw = tx.encode()
const decoded = Transaction.decode(raw)
// To decode a transaction, use the following:
const raw = Buffer.from('51cf80808203e8c001018252088080c080', 'hex')
const unsigned = false
const decoded = Transaction.decode(raw, unsigned)Client side self-signed certificate:
import { Certificate, secp256k1, blake2b256 } from 'thor-devkit'
const cert: Certificate = {
purpose: 'identification',
payload: {
type: 'text',
content: 'fyi'
},
domain: 'localhost',
timestamp: 1545035330,
signer: <<<signer-address>>>
}
const jsonStr = Certificate.encode(cert)
const signature = secp256k1.sign(blake2b256(jsonStr), <<<private-key>>>)
cert.signature = '0x' + signature.toString('hex')
Certificate.verify(cert)
// certificate id
const id = '0x' + blake2b256(Certificate.encode(cert)).toString('hex')import { abi } from 'thor-devkit'
const fn = new abi.Function({
"constant": false,
"inputs": [
{
"name": "a1",
"type": "uint256"
},
{
"name": "a2",
"type": "string"
}
],
"name": "f1",
"outputs": [
{
"name": "r1",
"type": "address"
},
{
"name": "r2",
"type": "bytes"
}
],
"payable": false,
"stateMutability": "nonpayable",
"type": "function"
})
const data = fn.encode(1, 'foo')import { RLP } from 'thor-devkit'
// define the profile for tx clause structure
const profile: RLP.Profile = {
name: 'clause',
kind: [
{ name: 'to', kind: new RLP.NullableFixedBlobKind(20) },
{ name: 'value', kind: new RLP.NumericKind(32) },
{ name: 'data', kind: new RLP.BlobKind() }
]
}
const clause = {
to: '0x7567d83b7b8d80addcb281a71d54fc7b3364ffed',
value: 10,
data: '0x'
}
const rlp = new RLP(profile)
const data = rlp.encode(clause)
console.log(data.toString('hex'))
// d7947567d83b7b8d80addcb281a71d54fc7b3364ffed0a80
const obj = rlp.decode(data)
// `obj` should be identical to `clause`import { blake2b256, keccak256 } from 'thor-devkit'
const hash = blake2b256('hello world')
console.log(hash.toString('hex'))
// 256c83b297114d201b30179f3f0ef0cace9783622da5974326b436178aeef610
hash = keccak256('hello world')
console.log(hash.toString('hex'))
// 47173285a8d7341e5e972fc677286384f802f8ef42a5ec5f03bbfa254cb01fadimport { secp256k1, keccak256, address } from 'thor-devkit'
const privKey = secp256k1.generatePrivateKey()
const pubKey = secp256k1.derivePublicKey(privKey)
const addr = address.fromPublicKey(pubKey)
const signature = secp256k1.sign(keccak256('hello world'), privKey)
const recoveredPubKey = secp256k1.recover(keccak256('hello world'), signature)import { mnemonic, Keystore, HDNode } from 'thor-devkit'
// generate BIP39 mnemonic words, default to 12 words(128bit strength)
const words = mnemonic.generate()
// derive private key from mnemonic words according to BIP32, using the path `m/44'/818'/0'/0`.
// defined for VET at https://github.com/satoshilabs/slips/blob/master/slip-0044.md
const privateKey = mnemonic.derivePrivateKey(words)
// in recovery process, validation is recommended
let ok = mnemonic.validate(words)
// encrypt/decrypt private key using Ethereum's keystore scheme
const keystore = await Keystore.encrypt(privateKey, 'your password')
// throw for wrong password
const recoveredPrivateKey = await Keystore.decrypt(keystore, 'your password')
// roughly check keystore format
ok = Keystore.wellFormed(keystore)
// create BIP32 HD node from mnemonic words
const hdnode = HDNode.fromMnemonic(words)
// derive 5 child private keys
for (let i = 0; i < 5; i++) {
let child = hdnode.derive(i)
// get child private key
// child.privateKey
}
// or create HD node from xpub
const pub = Buffer.from('04dc40b4324626eb393dbf77b6930e915dcca6297b42508adb743674a8ad5c69a046010f801a62cb945a6cb137a050cefaba0572429fc4afc57df825bfca2f219a', 'hex')
const chainCode = Buffer.from('105da5578eb3228655a8abe70bf4c317e525c7f7bb333634f5b7d1f70e111a33', 'hex')
hdnode = HDNode.fromPublicKey(pub, chainCode)
// derive 5 child public keys
for (let i = 0; i < 5; i++) {
let child = hdnode.derive(i)
// get child public key
// child.publicKey
}Thor DevKit is licensed under the MIT License.