Skip to content

Official TypeScript packages for interacting with the Helium blockchain

License

Notifications You must be signed in to change notification settings

muzzlest/helium-js

 
 

Repository files navigation

Helium JS SDK

Build Status Coverage Status Renovate

Please view the Documentation for usage and examples.

⚠️ These libraries are currently in active development and are provided as-is. Helium makes no claims or guarantees about the correctness, reliability or security of this code. PRs welcome, see CONTRIBUTING.

This SDK is a collection of TypeScrypt libraries for interacting with the Helium blockchain. For additional documentation about the Helium network, visit the Developer Site.

Package NPM Version What it's for
@helium/crypto npm Cryptography utilities including keypairs, mnemonics and base58-check encoding
@helium/crypto-react-native npm Cryptography utilities following the same interface as @helium/crypto but for React Native
@helium/transactions npm Construct and serialize transaction primitives from their protobuf definitions
@helium/proto npm Protobuf definitions for Helium transactions
@helium/proto-ble npm Protobuf definitions for Helium Hotspot ble transactions
@helium/http npm An HTTP client for the blockchain REST API
@helium/currency npm Utilities for representing amounts of the different currencies supported by Helium
@helium/onboarding npm An HTTP client for interfacing with an Onboarding Server
@helium/address npm Utilities for Helium Addresses
@helium/wallet-link npm Utilities for linking a 3rd party app to the Helium Wallet

Installation

Each package can be installed independently depending on what utility you need. For example:

$ yarn add @helium/crypto @helium/transactions @helium/http
# or
$ npm install @helium/crypto @helium/transactions @helium/http

Usage

The following examples demonstrate some of the more common use cases and show how these packages can be used in combination to accomplish common tasks.

Creating and submitting a payment transaction

A payment from an owned keypair initialized with a 12 word mnemonic to an address specified by its base58 representation. The transaction is serialized to binary and submitted to the blockchain API.

import { Keypair, Address } from '@helium/crypto'
import { PaymentV1, Transaction } from '@helium/transactions'
import { Client } from '@helium/http'

const client = new Client()

// the transactions library needs to be configured
// with the latest chain vars in order to calcluate fees
const vars = await client.vars.get()
Transaction.config(vars)

// initialize an owned keypair from a 12 word mnemonic
const bob = await Keypair.fromWords(['one', 'two', ..., 'twelve'])

// initialize an address from a b58 string
const alice = Address.fromB58('148d8KTRcKA5JKPekBcKFd4KfvprvFRpjGtivhtmRmnZ8MFYnP3')

// get the speculative nonce for the keypair
const account = await client.accounts.get(bob.address.b58)

// construct a payment txn
const paymentTxn = new PaymentV1({
  payer: bob.address,
  payee: alice,
  amount: 10,
  nonce: account.speculativeNonce + 1,
})

// an appropriate transaction fee is calculated at initialization
console.log('transaction fee is:', paymentTxn.fee)

// sign the payment txn with bob's keypair
const signedPaymentTxn = await paymentTxn.sign({ payer: bob })

// submit the serialized txn to the Blockchain HTTP API
client.transactions.submit(signedPaymentTxn.toString())

Creating an advanced payment transaction

PaymentV2 transactions allow for specifying multiple recipients in the same transaction.

import { Keypair, Address } from '@helium/crypto'
import { PaymentV2, Transaction } from '@helium/transactions'
import { Client } from '@helium/http'

const client = new Client()

// the transactions library needs to be configured
// with the latest chain vars in order to calcluate fees
const vars = await client.vars.get()
Transaction.config(vars)

// initialize an owned keypair from a 12 word mnemonic
const bob = await Keypair.fromWords(['one', 'two', ..., 'twelve'])

// get the speculative nonce for the keypair
const account = await client.accounts.get(bob.address.b58)

// initialize recipient addresses from b58 strings
const alice = Address.fromB58('148d8KTRcKA5JKPekBcKFd4KfvprvFRpjGtivhtmRmnZ8MFYnP3')
const charlie = Address.fromB58('13JoEpkGQUd8bzn2BquFZe1CbmfzhL4cYpEohWH71yxy7cEY59Z')

// construct a PaymentV2 txn
const paymentTxn = new PaymentV2({
  payer: bob.address,
  payments: [
    {
      payee: alice,
      amount: 20,
    },
    {
      payee: charlie,
      amount: 10,
    },
  ],
  nonce: account.speculativeNonce + 1,
})

// an appropriate transaction fee is calculated at initialization
console.log('transaction fee is:', paymentTxn.fee)

// sign the payment txn with bob's keypair
const signedPaymentTxn = await paymentTxn.sign({ payer: bob })

// submit the serialized txn to the Blockchain HTTP API
client.transactions.submit(signedPaymentTxn.toString())

Sending an Account's full balance

Sending the maximum amount from an account (leaving a 0 HNT balance) requires taking into account the transaction fee. All fees are denominated in Data Credits (DC), which is equal to $0.00001 USD, meaning 35,000 DC equals $0.35 USD. DC are obtained by burning HNT, permanently removing it from circulation. If you do not already have DC in your account, the appropriate amount of HNT will be burned to cover the fee.

The general formula is: amountToSend = balance - feeInHNT

The packages in helium-js provide utility functions to calculate the above:

import { Keypair, Address } from '@helium/crypto'
import { PaymentV2, Transaction } from '@helium/transactions'
import { Client } from '@helium/http'
import { Balance, CurrencyType } from '@helium/currency'

const client = new Client()

// the transactions library needs to be configured
// with the latest chain vars in order to calcluate fees
const vars = await client.vars.get()
Transaction.config(vars)

// assuming bob has a balance of 100 HNT
const bob = await Keypair.fromWords(['one', 'two', ..., 'twelve'])

// initialize an address from a b58 string
const alice = Address.fromB58('148d8KTRcKA5JKPekBcKFd4KfvprvFRpjGtivhtmRmnZ8MFYnP3')

// get the speculative nonce for the keypair
const account = await client.accounts.get(bob.address.b58)

// construct a PaymentV2 txn for the purpose
// of calculating the fee
const paymentTxnForFee = new PaymentV2({
  payer: bob.address,
  payments: [
    {
      payee: alice,
      amount: account.balance.integerBalance,
    },
  ],
  nonce: account.speculativeNonce + 1,
})

// calculate max sendable amount
const feeInDC = new Balance(paymentTxnForFee.fee, CurrencyType.dataCredit)
const oracle = await client.oracle.getCurrentPrice()
const feeInHNT = feeInDC.toNetworkTokens(oracle.price)
const amountToSend = account.balance.minus(feeInHNT).integerBalance

// construct a PaymentV2 txn to sign
const paymentTxnForFee = new PaymentV2({
  payer: bob.address,
  payments: [
    {
      payee: alice,
      amount: amountToSend,
    },
  ],
  nonce: account.speculativeNonce + 1,
})

// sign the payment txn with bob's keypair
const signedPaymentTxn = await paymentTxn.sign({ payer: bob })

// submit the serialized txn to the Blockchain HTTP API
client.transactions.submit(signedPaymentTxn.toString())

⚠️ Note that oracle prices change over time. It's possible for a transaction to fail if the oracle price changes in between the time the transaction is constructed and when it is absorbed by the consensus group. The API exposes what the next oracle price will be at https://api.helium.io /v1/oracle/predictions. See https://developer.helium.com/blockchain/api/oracle for more details. To avoid failed transactions, it may be worth querying both the oracle predictions, and the current oracle value, and taking the greatest of those values.

Sending payment from multi-signature wallet

Sending a payment from a multi-signature wallet requires collecting the minimum number of required signatures from the addresses associated with the multi-signature address in question. Below is an example of creating and signing a 1 of 2 multi-signature address transaction.

import { Keypair, MultisigSignature } from '@helium/crypto'
import Address, { MultisigAddress } from '@helium/address'
import { PaymentV2, Transaction } from '@helium/transactions'
import { Client } from '@helium/http'

const client = new Client()

// the transactions library needs to be configured
// with the latest chain vars in order to calcluate fees
const vars = await client.vars.get()
Transaction.config(vars)

// initialize a keypair available for signing
const bob = await Keypair.fromWords(['one', 'two', ..., 'twelve'])

// initialize an address from a b58 string
const alice = Address.fromB58('148d8KTRcKA5JKPekBcKFd4KfvprvFRpjGtivhtmRmnZ8MFYnP3')

// initialize multisig address with the full set of addreses and required number of signatures
const multisigAddress = await MultisigAddress.create([bob.address, alice], 1)

// get the speculative nonce for the multisig keypair
const account = await client.accounts.get(multisigAddress.b58)

// create random payee address
const payeeAddress = Address.fromB58('13dSybmfNofup3rBGat2poGfuab4BhYZNKUJFczSi4jcwLmoXvD')

// construct a PaymentV2 txn to sign
const paymentTxn = new PaymentV2({
  payer: multisigAddress,
  payments: [
    {
      payee: payeeAddress,
      amount: amountToSend,
    },
  ],
  nonce: account.speculativeNonce + 1,
})

// Create signatures payload, a map of address to signature, and finally a KeySignature list
const bobSignature = (await paymentTxn.sign({ payer: bob })).signature || new Uint8Array()
const signatureMap = new Map([[bob.address, await bob.sign(paymentTxn.serialize())]])
const signatures = KeySignature.fromMap([bob.address, aliceAddress], signatureMap)

// Construct multisig signature using the address, the full set of all addresses, and the required signatures
const multisigSig = new MultisigSignature([bob.address, aliceAddress], signatures)

// Update signature on payment trasnaction
await paymentTxn.sign({payer: multisigSig})

// submit the serialized txn to the Blockchain HTTP API
client.transactions.submit(paymentTxn.toString())

About

Official TypeScript packages for interacting with the Helium blockchain

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • TypeScript 100.0%