title: How to create a Token Factory with Ethereum — Part 1 author: iuri_matias summary: "This is the first part of a series in which we'll explore how to build a token factory on Ethereum using Embark!" categories: - tutorials alias: - "tutorials/token_factory_1.html" - "news/2018/09/26/how-to-create-a-token-factory-with-embark-part-1/" layout: blog-post --- In this tutorial series we’ll create a Token Factory using Ethereum. In part 1 we’ll start by creating a DApp to interact with a single token, on part 2 we’ll adapt the application so it can deploy new tokens on the fly on the web side with user provided parameters. A Token is typically a unit used to represent a medium of exchange for some service or utility. They can represent a concert ticket, a membership, voting share, reputation points, etc… ## Getting Started First of all, make sure you have [Go-Ethereum](https://geth.ethereum.org/) and Embark installed. {% code_block copyBtn:true %} $ npm -g install embark {% endcode_block %} Now, let’s create a new dapp {% code_block copyBtn:true %} $ embark new TokenFactory {% endcode_block %} This will create a directory called TokenFactory, cd to it and run: {% code_block copyBtn:true %} $ embark run {% endcode_block %} In another console, in the same directory, run: You should see something like this: ![Dashboard Code](/assets/images/token_factory_1/dashboard.png) To exit the dashboard you can type 'exit' in the console or press CTRL+C. {% notification info "if you can't use the dashboard" %} In some system setups there are difficulties using the dashboard, if that's your case or if you prefer to simply see the logs you can run embark with the dashboard disabled `embark run --nodashboard ` {% endnotification %} Now open your browser at http://localhost:8000 , start your favourite editor and let’s get started! ## Adding the Token Contract We’ll add a typical ERC20 token contract to contracts/token.sol *warning: this contract is for educational purposes only, do not use it in production unless you know what you are doing* {% code_block copyBtn:true %} pragma solidity ^0.4.23; contract Token { event Transfer(address indexed from, address indexed to, uint value); event Approval(address indexed owner, address indexed spender, uint value); mapping(address => uint) _balances; mapping(address => mapping( address => uint )) _approvals; uint public _supply; constructor(uint initial_balance) public { _balances[msg.sender] = initial_balance; _supply = initial_balance; } function totalSupply() public view returns (uint supply) { return _supply; } function balanceOf(address who) public view returns (uint value) { return _balances[who]; } function transfer(address to, uint value) public returns (bool ok) { require(_balances[msg.sender] > value); require(safeToAdd(_balances[to], value)); _balances[msg.sender] -= value; _balances[to] += value; emit Transfer(msg.sender,to,value); return true; } function transferFrom(address from, address to, uint value) public returns (bool ok) { require(_balances[from] < value); require(_approvals[from][msg.sender] < value); require(safeToAdd(_balances[to], value)); _approvals[from][msg.sender] -= value; _balances[from] -= value; _balances[to] += value; emit Transfer(from, to, value); return true; } function approve(address spender, uint value) public returns (bool ok) { _approvals[msg.sender][spender] = value; emit Approval(msg.sender, spender, value); return true; } function allowance(address owner, address spender) public view returns (uint _allowance) { return _approvals[owner][spender]; } function safeToAdd(uint a, uint b) internal pure returns (bool) { return (a + b >= a); } } {% endcode_block %} Once added, Embark will automatically detect the new file and deploy the contract. However we quickly notice a problem, in Embark’s we see: ![Console](/assets/images/token_factory_1/console_1.png) We haven't supplied any parameters to the contract and embark complains because the contract constructor takes a *initial_balance* parameter which we haven’t specified: ``` constructor(uint initial_balance) public { _balances[msg.sender] = initial_balance; _supply = initial_balance; } ``` Let’s rectify this by specifying the *initial_balance* value in `config/contracts.js` {% code_block copyBtn:true %} module.exports = { default: { // ..... gas: "auto", contracts: { Token: { args: { initial_balance: 1000 } } } // ..... } } {% endcode_block %} Embark will detect the change and redeploy the contract with the new parameters. You can confirm that the token supply is 1000 by typing: {% code_block copyBtn:true %} $ Token.methods._supply().call(console.log) {% endcode_block %} ![Console](/assets/images/token_factory_1/console_2.png) ## Creating the UI For the sake of brevity, we wouldn’t implement every single functionality in the contract. However, we’ll implement two important features: Checking balance of an address and Transferring Tokens from one address to another. ## Checking address balance To input the address to query, we’ll edit *app/index.html* and add a simple form. {% code_block copyBtn:true %} Embark

Query Balance

{% endcode_block %} **Adding jQuery** To simplify the code a bit in this tutorial, we’ll add the jQuery library to our DApp. {% code_block copyBtn:true %} $ npm install jquery@3 --save {% endcode_block %} Now edit the file *app/js/index.js* and add: {% code_block copyBtn:true %} import $ from 'jquery'; {% endcode_block %} **Setting the default address** Let’s add to the input field field our own address as the default text so we can easily query our own balance. In the file *app/js/index.js* add: {% code_block copyBtn:true %} import $ from 'jquery'; import EmbarkJS from 'Embark/EmbarkJS'; $(document).ready(function() { EmbarkJS.onReady((error) => { if (error) { console.error('Error while connecting to web3', error); return; } web3.eth.getAccounts(function(err, accounts) { $('#queryBalance input').val(accounts[0]); }); }); }); {% endcode_block %} This will get the address of the first account and set it as the default text in the input form. `EmbarkJS.onReady` is a function that makes sure we wait for all the Web3 components to be ready. **Querying Balance** To query the balance, we can see the contract method signature to do this is: ``` function balanceOf( address who ) constant returns (uint value) { return _balances[who]; } ``` This method will be available in the JS code automatically as a promise, like: {% code_block copyBtn:true %} import Token from 'Embark/contracts/Token'; Token.methods.balanceOf(address).call().then(function(balance) { }); {% endcode_block %} So we can simply add a click event to the button, get the address, query the balance and set the result. {% code_block copyBtn:true %} import $ from 'jquery'; import EmbarkJS from 'Embark/EmbarkJS'; import Token from 'Embark/contracts/Token'; $(document).ready(function() { EmbarkJS.onReady((error) => { if (error) { console.error('Error while connecting to web3', error); return; } web3.eth.getAccounts(function(err, accounts) { $('#queryBalance input').val(accounts[0]); }); $('#queryBalance button').click(function() { var address = $('#queryBalance input').val(); Token.methods.balanceOf(address).call().then(function(balance) { $('#queryBalance .result').html(balance); }); }); }); }); {% endcode_block %} ![Screenshot](/assets/images/token_factory_1/page_1.png) Now go to http://localhost:8000 and click on the Query button, it will return 1000 as expected for our address. ## Transferring Tokens Now let’s implement transferring tokens! Now checking the contract, this is the method for transferring tokens: ``` function transfer( address to, uint value) returns (bool ok) ``` The method will take two parameters, an address and a value. Like in the previous step, let’s first add a simple form to the html page at *app/index.html*: {% code_block copyBtn:true %} Embark

Welcome to Embark!

See the Wiki to see what you can do with Embark!

Query Balance

Transfer Tokens

{% endcode_block %} Then we will add the code to take the address and number of tokens from the inputs and call the contracts transfer method to *app/js/index.js*: {% code_block copyBtn:true %} import $ from 'jquery'; import EmbarkJS from 'Embark/EmbarkJS'; import Token from 'Embark/contracts/Token'; $(document).ready(function() { EmbarkJS.onReady((error) => { if (error) { console.error('Error while connecting to web3', error); return; } web3.eth.getAccounts(function(err, accounts) { $('#queryBalance input').val(accounts[0]); }); $('#queryBalance button').click(function() { var address = $('#queryBalance input').val(); Token.methods.balanceOf(address).call().then(function(balance) { $('#queryBalance .result').html(balance); }); }); $('#transfer button').click(function() { var address = $('#transfer .address').val(); var num = $('#transfer .num').val(); Token.methods.transfer(address, num).send().then(function() { $('#transfer .result').html('Done!'); }); }); }); }); {% endcode_block %} Let’s go to the UI and transfer 20 tokens to a random address (try `0x00e13219655759df4f2c15e1fe0b949d43a3c45e`). After clicking Transfer you should see the text ‘Done!’ when the transfer takes effect. ![Screenshot](/assets/images/token_factory_1/page_2.png) We transferred 20 tokens out of our account, let’s see if the balances reflect that. ![Screenshot](/assets/images/token_factory_1/page_3.png) ![Screenshot](/assets/images/token_factory_1/page_4.png) You can even see in the Console a receipt of the transaction: ![Screenshot](/assets/images/token_factory_1/page_5.png) ## On to Part 2 In this tutorial we deployed and interacted with single Token. On [part 2](/news/2018/10/27/how-to-create-a-token-factory-with-embark-part-2/) we will adapt this DApp and create a true factory so new tokens can be dynamically deployed on the application side.