The Signum Network SDK for Javascript (written in Typescript)
@signumjs
is a modern SDK written in Typescript providing common functionalities for browsers and nodejs to
interact with the Signum Network blockchain, an advanced community-driven blockchain
technology.
Best way to start is with the extensive Online Documentation
The SDK is separated in the following packages
- @signumjs/core The main package providing an extensive API for blockchain interaction
- @signumjs/contracts A package providing Signum relevant functions for smart contracts
- @signumjs/crypto A package providing Signum relevant crypto functions
- @signumjs/util A package providing useful functions, e.g. common conversion functions
- @signumjs/http A package providing a simplified Http layer, with consistent response types, and exception handling
- @signumjs/monitor A package providing a class to execute recurring async operations with de/serialization feature, good for listening to blockchain transactions
- @signumjs/wallets This package provides the communication with SIP22 compatible deeplinkable
- @signumjs/standards This package provides the communication with SIP22 compatible deeplinkable
@signumjs
aims modern browsers and nodejs >= v14, but can also be used as bundled JavaScript using <script>
Install using npm:
npm install @signumjs/core
npm install @signumjs/contracts (optional)
npm install @signumjs/crypto (optional)
npm install @signumjs/util (optional)
npm install @signumjs/http (optional)
npm install @signumjs/monitor (optional)
npm install @signumjs/wallets (optional)
npm install @signumjs/standards (optional)
or using yarn:
yarn add @signumjs/core
yarn add @signumjs/contracts (optional)
yarn add @signumjs/crypto (optional)
yarn add @signumjs/util (optional)
yarn add @signumjs/http (optional)
yarn add @signumjs/monitor (optional)
yarn add @signumjs/wallets (optional)
yarn add @signumjs/standards (optional)
Each package is available as bundled standalone library using UMD. This way SignumJS can be used also
within <script>
-Tags. This might be useful for Wordpress and/or other PHP applications.
Just import one of the packages using the HTML <script>
tag.
<script src='https://cdn.jsdelivr.net/npm/@signumjs/core/dist/signumjs.min.js'></script>
<script src='https://cdn.jsdelivr.net/npm/@signumjs/contracts/dist/signumjs.contracts.min.js'></script>
<script src='https://cdn.jsdelivr.net/npm/@signumjs/crypto/dist/signumjs.crypto.min.js'></script>
<script src='https://cdn.jsdelivr.net/npm/@signumjs/http/dist/signumjs.http.min.js'></script>
<script src='https://cdn.jsdelivr.net/npm/@signumjs/util/dist/signumjs.util.min.js'></script>
<script src='https://cdn.jsdelivr.net/npm/@signumjs/monitor/dist/signumjs.monitor.min.js'></script>
<script src='https://cdn.jsdelivr.net/npm/@signumjs/wallets/dist/signumjs.wallets.min.js'></script>
<script src='https://cdn.jsdelivr.net/npm/@signumjs/standards/dist/signumjs.standards.min.js'></script>
Due to the way a package is imported following global variables are provided
Package | Variable |
---|---|
core | sig$ |
contracts | sig$contracts |
crypto | sig$crypto |
http | sig$http |
monitor | sig$monitor |
util | sig$util |
wallets | sig$wallets |
wallets | sig$standards |
Examples:
// using core
const ledger = sig$.LedgerClientFactory.create({
nodeHost: "http://testnet.signum.network",
});
ledger.network.getBlockchainStatus().then(console.log);
// using contracts
const dataView = new sig$contracts.ContractDataView(contract)
console.log(dataView.getVariable(2))
// using crypto
console.log(sig$crypto.hashSHA256("test"))
// using util
const value = sig$util.Amount.fromSigna("1000")
// using http
const client = new sig$http.HttpClientFactory.createHttpClient('https://jsonplaceholder.typicode.com/');
client.get('/todos/1').then(console.log)
// using wallets
const wallet = new sig$wallets.GenericExtensionWallet()
const connection = await wallet.connect();
const subscription = connection.listen({
onAccountChanged: (accountId, publicKey) => { /*...*/ }
})
// ...
subscription.unlisten()
// using standards - depends on ledger
const ledger = sig$.LedgerClientFactory.create({
nodeHost: "http://europe3.testnet.signum.network",
});
// create Descriptor data object
const descriptorData = sig$standards.DescriptorDataBuilder
.create('ohager')
.setType('hum')
.setBackground('QmUFc4dyX7TJn5dPxp8CrcDeedoV18owTBUWApYMuF6Koc', 'image/jpeg')
.setAvatar('QmbWqxBEKC3P8tqsKc98xmWNzrzDtRLMiMPL8wBuTGsMnR', 'image/gif')
.setSocialMediaLinks(['https://somelink.com'])
.setDescription('Just a humble dev...')
.setHomePage('https://digital-independence.dev')
.build();
// updates account descriptor
const client = new sig$standards.DescriptorDataClient(ledger)
const transaction = await client.setAccountDescriptor({
descriptorData,
senderPublicKey: '497d559d18d989b8....ed2716a4b2121902',
senderPrivateKey: '**********************************'
});
// using monitor
// A method that checks if an account exists
// > IMPORTANT: Do not use closures, when you need to serialize the monitor
import {LedgerClientFactory} from './ledgerClientFactory';
async function tryFetchAccount() {
try {
const ledger = LedgerClientFactory.create({nodeHost: 'https://europe3.testnet.signum.network/'})
const {account} = await ledger.account.getAccount('1234')
return account;
} catch (e) {
// ignore error
return null;
}
}
// A comparing function to check if a certain condition for the returned data from fetch function
// is true. If it's true the monitor stops
function checkIfAccountExists(account) {
return account !== null;
}
// Create your monitor
const monitor = new Monitor<Account>({
asyncFetcherFn: tryFetchAccount,
compareFn: checkIfAccountExists,
intervalSecs: 10, // polling interval in seconds
key: 'monitor-account',
timeoutSecs: 2 * 240 // when reached timeout the monitor stops
})
.onFulfilled(() => {
// called when `checkIfAccountExists` returns true
console.log('Yay, account active');
})
.onTimeout(() => {
// called when `timeoutSecs` is reached
console.log('Hmm, something went wrong');
}).start();
The following example shows how to interact with the blockchain, i.e. getting the balance of a specific account
In a separate file, preferably index.js
or main.js
write your entry point like this:
import {LedgerClientFactory, ApiSettings} from '@signumjs/core'
import {Amount} from '@signumjs/util'
// this self-executing file makes turns this file into a starting point of your app
(async () => {
try {
const ledger = LedgerClientFactory.createClient({nodeHost: 'https://europe3.testnet.signum.network'});
const {balanceNQT} = await ledger.account.getAccountBalance('13036514135565182944')
console.log(`Account Balance: ${Amount.fromPlanck(balanceNQT).toString()}`)
} catch (e) { // e is of type HttpError (as part of @signumjs/http)
console.error(`Whooops, something went wrong: ${e.message}`)
}
})()
const ledger = sig$.LedgerClientFactory.create({nodeHost: 'https://europe3.testnet.signum.network'});
ledger.account.getAccountBalance('13036514135565182944')
.then(balance => {
console.log(`Account Balance: ${sig$util.Amount.fromPlanck(balance.balanceNQT).toString()}`)
})
.catch(e => { // e is of type HttpError (as part of @signumjs/http)
console.error(`Whooops, something went wrong: ${e.message}`)
})
Contributors are warmly welcome. To start your local build just hit
npm install
That's it!
The SDK is using Lerna to manage all subpackages in a developer friendlier way:
npm run build
- Single test run
npm run test
- Run in watch mode
npm run test:watch
- Run end-to-end test
npm run test:e2e
| Keep in mind that these tests are slow as they run against true servers. And therefore, it cannot be guaranteed that all E2E tests always work
To publish all packages (using lerna and same version strategy) just run
npm run publish
Note: Only with a valid npm OTP token