In this tutorial, we will go over how to set up a Celo development blockchain that includes all of the core protocol contracts, including identity and stability contracts.
At the end of this tutorial, you will have a local Celo development blockchain running exposed at http://localhost:8545 and will be able to connect to it like any other local node. We will also go over how to inspect the development blockchain using the Celo CLI tool and the ContractKit.
Running the development Celo blockchain is helpful because it greatly speeds up development time. You will start with 10 accounts pre-funded with cGLD and cUSD and all transactions on the network are virtually instant.
To start, download the Celo monorepo here or with the following command.
$ git clone email@example.com:celo-org/celo-monorepo.git
In the monorepo project root run
$ yarn to install the project dependencies and
$ yarn build to build the packages.
Once those are installed, move into the
$ cd packages/contractkit
contractkit directory, run
$ yarn test:reset && yarn test:livechain. This will start the development Celo blockchain. It will take at least a few minutes to start. The contract migrations will be printed in the terminal as they are deployed.
The process will finish and print
Ganache started. Leave this terminal window open to leave the development chain running.
Now that we have a Celo development chain running, we probably want to know what accounts we have access to, how much cGLD and cUSD they have as well as the addresses of the deployed protocol contracts.
You can install the CLI using npm by running
npm install -g @celo/celocli. You can see the package details here. Once it is installed, you should be able to access the tool from the terminal by running
$ celocli. Try
$ celocli help.
The CLI will connect to the node at http://localhost:8545 by default. You can check this by running
$ celocli node:get.
You can see the accounts available on the Celo development chain by running
$ celocli account:list. You should see something like:
[ '0x5409ED021D9299bf6814279A6A1411A7e866A631','0x6Ecbe1DB9EF729CBe972C83Fb886247691Fb6beb','0xE36Ea790bc9d7AB70C55260C66D52b1eca985f84','0xE834EC434DABA538cd1b9Fe1582052B880BD7e63','0x78dc5D2D739606d31509C31d654056A45185ECb6','0xA8dDa8d7F5310E4A9E24F8eBA77E091Ac264f872','0x06cEf8E666768cC40Cc78CF93d9611019dDcB628','0x4404ac8bd8F9618D27Ad2f1485AA1B2cFD82482D','0x7457d5E02197480Db681D3fdF256c7acA21bDc12','0x91c987bf62D25945dB517BDAa840A6c661374402' ]
If you try to check the balance of the first account with
$ celocli account:balance 0x5409ED021D9299bf6814279A6A1411A7e866A631 you might encounter an error saying that the node is not currently synced. You can silence this by adding this environment variable to the terminal
$ export NO_SYNCCHECK=true. Running the command again will print:
All balances expressed in units of 10^-18.gold: 9.9999999693185872e+25lockedGold: 0usd: 5e+22total: 1.00004973043691287703791575e+26pending: 0
You can also use the contractkit to access the local node in a node.js script.
As an example, try running this script in an npm project with contractkit installed.
The linked gist is called getInfo.js. Run it with
$ node getInfo.js This will print some of the Celo blockchain information.
You are now prepared to start developing, transacting and deploying contracts on your own Celo development blockchain!
You can connect the development chain to a tool like Truffle or Remix to begin interacting with it. Keep in mind that these tools are built primarily for Ethereum development and are compatible with Celo because Celo is similar to Ethereum. The two blockchains have similar block architectures and both run the Ethereum Virtual Machine (EVM) for executing smart contracts.
The main difference between Celo and Ethereum that dapp developers need to keep in mind is that Celo has a slightly different transaction object than Ethereum. Celo requires 3 additional fields in a transaction object, a
gatewayFee and a
gatewayFeeRecipient. When Truffle and Remix are connected to a locally running Celo node, the local node will fill these fields with default values (if the fields are empty). The node will sign the Celo transaction and broadcast it to the network. Trying to send signed Ethereum transactions to a Celo network will not work.