Arbitrum Quick Start
Arbitrum Quick Start
The goal of this quick start guide is to index the total claimed dividends paid to users on the WINR staking contract on Arbitrum. Check out the video or follow the step by step instructions below.
In the earlier Quickstart section , you should have taken note of three crucial files. To initiate the setup of a project from scratch, you can proceed to follow the steps outlined in the initialisation description.
As a prerequisite, you will need to generate types from the ABI files of each smart contract. Additionally, you can kickstart your project by using the EVM Scaffolding approach (detailed here). You'll find all the relevant events to be scaffolded in the documentation for each type of smart contract.
Note
The final code of this project can be found here.
We use Ethereum packages, runtimes, and handlers (e.g. @subql/node-ethereum, ethereum/Runtime, and ethereum/*Hander) for Arbitrum. Since Arbitrum is an EVM-compatible layer-2 scaling solution, we can use the core Ethereum framework to index it.
Your Project Manifest File
The Project Manifest file is an entry point to your project. It defines most of the details on how SubQuery will index and transform the chain data.
For EVM chains, there are three types of mapping handlers (and you can have more than one in each project):
- BlockHanders: On each and every block, run a mapping function
- TransactionHandlers: On each and every transaction that matches optional filter criteria, run a mapping function
- LogHanders: On each and every log that matches optional filter criteria, run a mapping function
As we are indexing all claimed dividends from the WINR contract, the first step is to import the contract abi definition which can be obtained from here. Copy the entire contract ABI and save it as a file called winr-staking.abi.json in the /abis directory.
Update the datasources section as follows:
{
dataSources: [
{
kind: EthereumDatasourceKind.Runtime,
// This is the block of the first claim dividend https://arbiscan.io/tx/0x300b6199816f44029408efc850fb9d6f8751bbedec3e273909eac6f3a61ee3b3
startBlock: 91573785,
options: {
// Must be a key of assets
abi: "winr-staking",
// This is the contract address for WINR Staking https://arbiscan.io/tx/0x44e9396155f6a90daaea687cf48c309128afead3be9faf20c5de3d81f6f318a6
address: "0xddAEcf4B02A3e45b96FC2d7339c997E072b0d034",
},
assets: new Map([
["winr-staking", { file: "./abis/winr-staking.abi.json" }],
]),
mapping: {
file: "./dist/index.js",
handlers: [
{
kind: EthereumHandlerKind.Event,
handler: "handleDividendBatch",
filter: {
/**
* Follows standard log filters https://docs.ethers.io/v5/concepts/events/
* address: "0x60781C2586D68229fde47564546784ab3fACA982"
*/
topics: [
"ClaimDividendBatch(address indexed user, uint256 reward)",
],
},
},
],
},
},
],
}The above code indicates that you will be running a handleDividendBatch mapping function whenever there is a ClaimDividendBatch log on any transaction from the WINR contract.
Check out our Manifest File documentation to get more information about the Project Manifest (project.ts) file.
Update Your GraphQL Schema File
The schema.graphql file determines the shape of your data from SubQuery due to the mechanism of the GraphQL query language. Hence, updating the GraphQL Schema file is the perfect place to start. It allows you to define your end goal right at the start.
Remove all existing entities and update the schema.graphql file as follows. Here you can see we are indexing block information such as the id, blockHeight and timestamp along with the user, the total rewards and the dividends.
type Dividend @entity {
id: ID! # Transaction hash
blockHeight: BigInt!
timestamp: BigInt!
user: User!
reward: BigInt!
}
type User @entity {
id: ID! # Transaction hash
totalRewards: BigInt!
dividends: [Dividend]! @derivedFrom(field: "user")
}Note
Importantly, these relationships can not only establish one-to-many connections but also extend to include many-to-many associations. To delve deeper into entity relationships, you can refer to this section. If you prefer a more example-based approach, our dedicated Hero Course Module can provide further insights.
SubQuery simplifies and ensures type-safety when working with GraphQL entities, smart contracts, events, transactions, and logs. The SubQuery CLI will generate types based on your project's GraphQL schema and any contract ABIs included in the data sources.
yarn codegennpm run-script codegenThis action will generate a new directory (or update the existing one) named src/types. Inside this directory, you will find automatically generated entity classes corresponding to each type defined in your schema.graphql. These classes facilitate type-safe operations for loading, reading, and writing entity fields. You can learn more about this process in the GraphQL Schema section.
It will also generate a class for every contract event, offering convenient access to event parameters, as well as information about the block and transaction from which the event originated. You can find detailed information on how this is achieved in the EVM Codegen from ABIs section. All of these types are stored in the src/types/abi-interfaces and src/types/contracts directories.
You can conveniently import all these types:
import { Dividend, User } from "../types";Check out the GraphQL Schema documentation to get in-depth information on schema.graphql file.
Now that you have made essential changes to the GraphQL Schema file, let’s proceed ahead with the Mapping Function’s configuration.
Add a Mapping Function
Mapping functions define how blockchain data is transformed into the optimised GraphQL entities that we previously defined in the schema.graphql file.
Navigate to the default mapping function in the src/mappings directory. You will be able to see three exported functions: handleBlock, handleLog, and handleTransaction. Replace these functions with the following code:
import { Dividend, User } from "../types";
import { ClaimDividendBatchLog } from "../types/abi-interfaces/WinrStakingAbi";
async function checkGetUser(userID: string): Promise<User> {
let user = await User.get(userID.toLowerCase());
if (!user) {
user = User.create({
id: userID.toLowerCase(),
totalRewards: BigInt(0),
});
}
return user;
}
export async function handleDividendBatch(
batchDividendLog: ClaimDividendBatchLog,
): Promise<void> {
if (batchDividendLog.args) {
logger.info(`New dividend at block ${batchDividendLog.blockNumber}`);
const user = await checkGetUser(batchDividendLog.args[0]);
const dividend = Dividend.create({
id: `${batchDividendLog.transactionHash}-${batchDividendLog.logIndex}`,
blockHeight: BigInt(batchDividendLog.blockNumber),
timestamp: batchDividendLog.block.timestamp,
userId: user.id,
reward: batchDividendLog.args[1].toBigInt(),
});
user.totalRewards += dividend.reward;
await user.save();
await dividend.save();
}
}The handleDividendBatch function receives a batchDividendLog parameter of type ClaimDividendBatchLog which includes transaction log data in the payload. We extract this data and then save this to the store using the .save() function (Note that SubQuery will automatically save this to the database).
Check out our Mappings documentation to get more information on mapping functions.
Check out our Mappings documentation to get more information about the Project Manifest (project.ts) file.
Build Your Project
Next, build your work to run your new SubQuery project. Run the build command from the project's root directory as given here:
yarn buildnpm run-script buildImportant
Whenever you make changes to your mapping functions, you must rebuild your project.
Now, you are ready to run your first SubQuery project. Let’s check out the process of running your project in detail.
Whenever you create a new SubQuery Project, first, you must run it locally on your computer and test it and using Docker is the easiest and quickiest way to do this.
Run Your Project Locally with Docker
The docker-compose.yml file defines all the configurations that control how a SubQuery node runs. For a new project, which you have just initialised, you won't need to change anything.
However, visit the Running SubQuery Locally to get more information on the file and the settings.
Run the following command under the project directory:
yarn start:dockernpm run-script start:dockerNote
It may take a few minutes to download the required images and start the various nodes and Postgres databases.
Query your Project
Next, let's query our project. Follow these three simple steps to query your SubQuery project:
Open your browser and head to
http://localhost:3000.You will see a GraphQL playground in the browser and the schemas which are ready to query.
Find the Docs tab on the right side of the playground which should open a documentation drawer. This documentation is automatically generated and it helps you find what entities and methods you can query.
Try the following queries to understand how it works for your new SubQuery starter project. Don’t forget to learn more about the GraphQL Query language.
# Write your query or mutation q{here
{
query {
dividends(first: 2, orderBy: BLOCK_HEIGHT_DESC) {
totalCount
nodes {
id
userId
reward
}
}
users(first: 5, orderBy: TOTAL_REWARDS_DESC) {
totalCount
nodes {
id
totalRewards
dividends(first: 5) {
totalCount
}
}
}
}
}You will see the result similar to below:
{
"data": {
"query": {
"dividends": {
"totalCount": 1,
"nodes": [
{
"id": "0x44e9396155f6a90daaea687cf48c309128afead3be9faf20c5de3d81f6f318a6-5",
"userId": "0x9fd50776f133751e8ae6abe1be124638bb917e05",
"reward": "12373884174795780000"
}
]
},
"users": {
"totalCount": 1,
"nodes": [
{
"id": "0x9fd50776f133751e8ae6abe1be124638bb917e05",
"totalRewards": "12373884174795780000",
"dividends": {
"totalCount": 1
}
}
]
}
}
}
}Note
The final code of this project can be found here.
What's next?
Congratulations! You have now a locally running SubQuery project that accepts GraphQL API requests for transferring data.
Tip
Find out how to build a performant SubQuery project and avoid common mistakes in Project Optimisation.
Click here to learn what should be your next step in your SubQuery journey.