zilliqa-js
is structured as a Lerna monorepo. Each package roughly
corresponds to a discrete ZilliqaModule
, most of which can be used
independently.
The only required package is @zilliqa-js/core
, which contains
the default HTTPProvider
, and other core abstractions that are necessary for
other modules to function.
The following table provides a description of each module and what you may want to use it for.
Package | Version | Description | Dependencies |
---|---|---|---|
@zilliqa-js/core |
Core abstractions and base classes, such as HTTPProvider and network logic for interfacing with the Zilliqa JSON-RPC. |
||
@zilliqa-js/util |
Miscellaneous functions that take care of serialisation/deserialisation and validation. | ||
@zilliqa-js/crypto |
Exposes several loosely-coupled cryptographic convenience functions for working with the Zilliqa blockchain and its cryptographic primitives, such as Schnorr signatures. | @zilliqa-js/util |
|
@zilliqa-js/proto |
Protobuf source files and corresponding generated JS modules. | ||
@zilliqa-js/account |
Wallet , Account and Transaction abstractions. |
@zilliqa-js/core , @zilliqa-js/crypto , @zilliqa-js/proto |
|
@zilliqa-js/blockchain |
Main interface to the Zilliqa JSON-RPC . |
@zilliqa-js/account |
|
@zilliqa-js/contract |
Exposes a Contracts module that takes care of smart contract deployment and interaction. |
@zilliqa-js/blockchain |
|
@zilliqa-js/subscriptions |
Classes to interact with the websocket API of Zilliqa node. | ||
@zilliqa-js/scilla-json-utils |
Simplifies the way you construct the Scilla JSON data. | ||
@zilliqa-js/viewblock |
Library interfacing with ViewBlock's APIs. This package is maintained by Ashlar | @zilliqa-js/crypto |
graph TD
scilla-json-utils
proto
util
core
contract --> blockchain
blockchain --> account
crypto --> util
account --> crypto
account ---> core
account ---> proto
subscriptions
viewblock
zilliqa-js
uses scrypt
library which depends on node-gyp
in order to compile the binaries from source on Windows.
node-gyp
on Windows requires users to install additional Visual Studio Build tools.
To install the required Visual Studio Build tools:
npm install --global --production windows-build-tools # from an elevated PowerShell or CMD.exe as Administrator
npm config set msvs_version 2015 # 2015 is more compatible; though 2017 may work too
Refer to https://github.com/nodejs/node-gyp#installation for more information about node-gyp
installation on Windows.
It is recommended that developers install the JavaScript client by making use
of the umbrella package @zilliqa-js/zilliqa
. This takes care of bootstrapping the various modules, which are then accessible as members of the
Zilliqa
class.
npm i @zilliqa-js/zilliqa
# or
yarn add @zilliqa-js/zilliqa
You can create a test account by using Zilliqa Dev Wallet and request funds by using ZIL Faucet service.
const { BN, Long, bytes, units } = require('@zilliqa-js/util');
const { Zilliqa } = require('@zilliqa-js/zilliqa');
const {
toBech32Address,
getAddressFromPrivateKey,
} = require('@zilliqa-js/crypto');
const zilliqa = new Zilliqa('https://dev-api.zilliqa.com');
// These are set by the core protocol, and may vary per-chain.
// You can manually pack the bytes according to chain id and msg version.
// For more information: https://apidocs.zilliqa.com/?shell#getnetworkid
const chainId = 333; // chainId of the developer testnet
const msgVersion = 1; // current msgVersion
const VERSION = bytes.pack(chainId, msgVersion);
// Populate the wallet with an account
const privateKey =
'3375F915F3F9AE35E6B301B7670F53AD1A5BE15D8221EC7FD5E503F21D3450C8';
zilliqa.wallet.addByPrivateKey(privateKey);
const address = getAddressFromPrivateKey(privateKey);
console.log(`My account address is: ${address}`);
console.log(`My account bech32 address is: ${toBech32Address(address)}`);
async function testBlockchain() {
try {
// Get Balance
const balance = await zilliqa.blockchain.getBalance(address);
// Get Minimum Gas Price from blockchain
const minGasPrice = await zilliqa.blockchain.getMinimumGasPrice();
// Account balance (See note 1)
console.log(`Your account balance is:`);
console.log(balance.result);
console.log(`Current Minimum Gas Price: ${minGasPrice.result}`);
const myGasPrice = units.toQa('2000', units.Units.Li); // Gas Price that will be used by all transactions
console.log(`My Gas Price ${myGasPrice.toString()}`);
const isGasSufficient = myGasPrice.gte(new BN(minGasPrice.result)); // Checks if your gas price is less than the minimum gas price
console.log(`Is the gas price sufficient? ${isGasSufficient}`);
// Send a transaction to the network
console.log('Sending a payment transaction to the network...');
const tx = await zilliqa.blockchain.createTransaction(
// Notice here we have a default function parameter named toDs which means the priority of the transaction.
// If the value of toDs is false, then the transaction will be sent to a normal shard, otherwise, the transaction.
// will be sent to ds shard. More info on design of sharding for smart contract can be found in.
// https://blog.zilliqa.com/provisioning-sharding-for-smart-contracts-a-design-for-zilliqa-cd8d012ee735.
// For payment transaction, it should always be false.
zilliqa.transactions.new(
{
version: VERSION,
toAddr: '0xA54E49719267E8312510D7b78598ceF16ff127CE',
amount: new BN(units.toQa('1', units.Units.Zil)), // Sending an amount in Zil (1) and converting the amount to Qa
gasPrice: myGasPrice, // Minimum gasPrice veries. Check the `GetMinimumGasPrice` on the blockchain
gasLimit: Long.fromNumber(50),
},
false,
),
);
console.log(`The transaction status is:`);
console.log(tx.receipt);
// Deploy a contract
console.log(`Deploying a new contract....`);
const code = `scilla_version 0
(* HelloWorld contract *)
import ListUtils
(***************************************************)
(* Associated library *)
(***************************************************)
library HelloWorld
let not_owner_code = Int32 1
let set_hello_code = Int32 2
(***************************************************)
(* The contract definition *)
(***************************************************)
contract HelloWorld
(owner: ByStr20)
field welcome_msg : String = ""
transition setHello (msg : String)
is_owner = builtin eq owner _sender;
match is_owner with
| False =>
e = {_eventname : "setHello()"; code : not_owner_code};
event e
| True =>
welcome_msg := msg;
e = {_eventname : "setHello()"; code : set_hello_code};
event e
end
end
transition getHello ()
r <- welcome_msg;
e = {_eventname: "getHello()"; msg: r};
event e
end`;
const init = [
// this parameter is mandatory for all init arrays
{
vname: '_scilla_version',
type: 'Uint32',
value: '0',
},
{
vname: 'owner',
type: 'ByStr20',
value: `${address}`,
},
];
// Instance of class Contract
const contract = zilliqa.contracts.new(code, init);
// Deploy the contract.
// Also notice here we have a default function parameter named toDs as mentioned above.
// A contract can be deployed at either the shard or at the DS. Always set this value to false.
const [deployTx, hello] = await contract.deploy(
{
version: VERSION,
gasPrice: myGasPrice,
gasLimit: Long.fromNumber(10000),
},
33,
1000,
false,
);
// Introspect the state of the underlying transaction
console.log(`Deployment Transaction ID: ${deployTx.id}`);
console.log(`Deployment Transaction Receipt:`);
console.log(deployTx.txParams.receipt);
// Get the deployed contract address
console.log('The contract address is:');
console.log(hello.address);
//Following line added to fix issue https://github.com/Zilliqa/zilliqa-js/issues/168
const deployedContract = zilliqa.contracts.at(hello.address);
// Create a new timebased message and call setHello
// Also notice here we have a default function parameter named toDs as mentioned above.
// For calling a smart contract, any transaction can be processed in the DS but not every transaction can be processed in the shards.
// For those transactions are involved in chain call, the value of toDs should always be true.
// If a transaction of contract invocation is sent to a shard and if the shard is not allowed to process it, then the transaction will be dropped.
const newMsg = 'Hello, the time is ' + Date.now();
console.log('Calling setHello transition with msg: ' + newMsg);
const callTx = await hello.call(
'setHello',
[
{
vname: 'msg',
type: 'String',
value: newMsg,
},
],
{
// amount, gasPrice and gasLimit must be explicitly provided
version: VERSION,
amount: new BN(0),
gasPrice: myGasPrice,
gasLimit: Long.fromNumber(8000),
},
33,
1000,
false,
);
// Retrieving the transaction receipt (See note 2)
console.log(JSON.stringify(callTx.receipt, null, 4));
//Get the contract state
console.log('Getting contract state...');
const state = await deployedContract.getState();
console.log('The state of the contract is:');
console.log(JSON.stringify(state, null, 4));
} catch (err) {
console.log(err);
}
}
testBlockchain();
The account balance is an object with two fields, balance
and nonce
.
balance
is the account balance in Qa, which is the lowest denomination in Zilliqa.
For more information about gas accounting, please refer to here: https://forum.zilliqa.com/t/gas-accounting-in-zilliqa/199
nonce
is a counter that keeps track of how many transactions are sent from a given address. In Zilliqa, every transaction sent from an address must have a unique nonce.
{ "balance": "296505000000000", "nonce": "3" }
An example of a transaction receipt is this:
{
"cumulative_gas": 357,
"epoch_num": "676201",
"event_logs": [
{
"_eventname": "setHello()",
"address": "0x7a4aa130650396ab7c4006c471576a8404f5092b",
"params": [
{
"type": "Int32",
"value": "2",
"vname": "code"
}
]
}
],
"success": true
}
event_logs
comprises of all the events emitted in the transaction. For example, if your transaction calls a transition which emits 3 events, it will be an array of three events. The address
is the contract address of the contract which emits the event.
success
indicates if the transaction is successful.
For more examples, visit this repository.
Each package contains API documentation. For convenience, these are links to the respective README
documents.
Also, you can use viewblock library to interface with ViewBlock's APIs.
This repository makes use of several technologies to provide a better and faster development experience for contributors, and has to be bootstrapped before one can do productive work.
zilliqa-js
leverages Project References, which is available in TypeScript
from version 3.x
. As such, the build process is slightly different.
# install all dependencies and shared devDependencies
yarn install
# symlink packages, compile TS source files, and generate protobuf files.
yarn bootstrap
# watch TS source files and recompile on change
yarn build:ts -w
Tests for each package reside in packages/src/*/tests
, and are run using
jest
.
We can easily simulate a publish using Verdaccio which is a private npm proxy registry. For more details check tasks/local-registry.sh
zilliqa-js
is bundled using rollup
. To build the distributable bundles, simple run yarn bundle
.
This will output two bundles, *.umd.js
and *.esm.js
, to packages/*/dist
. Node.js clients
are pointed to the umd
bundle, and bundlers are pointed to esm
.
NOTE: these bundles are not minified.
To build an all-in-one static js file, first install webpack
globally using yarn global add webpack
. Then run yarn build:web
.
This will generate a dist
folder in the current path, which contains a file called zilliqa.min.js
. It can be used in normal html file. (A more specific example please refer to example/webpack
)
NOTE: there may be some issue to install webpack with npm, thus using yarn is a recommended way
You can view our licence here.