ocean-subgraph/docs/README-local-veSubgraph.md
Idiom a10c6244b5
Implementing first pass of veAllocate schema, handlers, and test cove… (#490)
* Implementing first pass of veAllocate schema, handlers, and test coverage.

* Fixed compiling issues, wrote compiling & testing outline inside of veAllocate.test. More to come.

* Created documentation. Moving tests away from subgraph and into df-py.

* Expanding documentation to be thorough and cover more of the work involved.

* use barge artifacts

* use proper contracts in ci

* use barge artifacts folder

* fix replace

* use npm contracts dep

* use latest contracts for barge

* fix some lint

* Fix linter errors

* Update schema

* Finished basic integration of setAllocation event and verified queries/schema is working as intended.

* Fixing amount getter.

* Fixed remaining implementation, verified SimpleSubgraph.test is working, and fixed lint errors.

* Fixing import.

* Use .zero()

* Improve readability

* Add allocated to schema

* Update abi

* Update event handlers in the template

* Update veREADME

* Remove `AllocationRemoved` handler

* Hooking data for tx, firstContact, lastUpdate, block

* Update event abi

* Add chainId and nftAddress to schema

* Update `handleAllocationSet`

* Update abi

* Update readme

* Set initial values

* Fix math

* Missing event param

* set initial value of `lastContact`

* veOcean template

* VeOcean entity

* Handler functions - wip

* rename file

* Delegation schema

* veDelegate mapping file

* Rename

* Update template

* Update schema

* Update replaces

* Add handler for delegation

* Update schema

* getveDelegation

* Update naming

* Add deposit entity

* Update template

* Make delegation an array

* Add `handleDelegation`

* Add `handleDeposit` for veOCEAN

* Add `getveOCEAN` util function

* Add `getDeposit` util function

* Add `handleBurnBoost`

* Add `handleExtendBoost`

* Add `handleTransferBoost`

* Set default veOCEAN

* Remove unused import

* Rename Deposit to VeDeposit

* Include block number

* Remove `allocatedTotal`

* Updating schema and fixing errors due to naming changes. Let's keep the user current allocation, maybe we need to create a feature to more easily let them know whether they are fully allocated, or not..

* bump contracts to v1.1.1

* bump contracts

* bump to contracts 1.1.2

* fix script for networks without ve

* add veAllocation.sol's AllocationSetMultiple

* copy artfacts from barge for npm quickstart:barge

* fix using barge artifacts

* temp debug

* use barge artifacts

* use contracts 1.1.3

* use same approach for 'development'

* bump ocean-contracts

Co-authored-by: alexcos20 <alex.coseru@gmail.com>
Co-authored-by: mihaisc <mihai@oceanprotocol.com>
Co-authored-by: trizin <25263018+trizin@users.noreply.github.com>
2022-09-05 15:07:31 +03:00

7.3 KiB

Add contract as dataSource and use local Subgraph + Ganache + Brownie

To develop new features on top of ocean-subgraph, it pays to deploy a local Subgraph that consumes from Ganache, so you can deploy your Contracts, execute their functionality, and query the Subgraph to verify Events are being Handled correctly, w/ the right Schema being yielded.

The following doc takes you through:

  1. Configuring docker-compose.yml to run an internal Subgraph that consumes from a local Ganache.
  2. Configuring df-py + Brownie to connect to the ocean-subgraph Ganache so we can deploy our local contracts.
  3. Adding our smart contract as a dataSource for our internal Subgraph. We can then handle contract events, and transform that data into queryable entities using GQL.
  4. Finally, we can hook our contracts into Testing & verifying that your subgraph is working as intended.

Note 1: For this tutorial, you should be using multiple terminal windows. These will be referred to at the top of each section.

Note 2: For this example, we're going to use the df-py repository and integrate veAllocate contract into ocean-subgraph

Note 3: For the sake of versatility, the example below is being executed using df-py while verification is being done by hand by viewing & querying GQL on the browser.

1. ocean-subgraph - Add & Connect Ganache

Section 1 takes place inside ocean-subgraph terminal window.

You should have this repository configured and working on your machine.

We now need to update ./docker/docker-compose.yml to implement a local instance of Ganache. Our graph-node needs to listen to Ganache for events, so we update the ethereum url.

services:
  ganache:
    image: trufflesuite/ganache-cli:latest
    ports:
      - 8545:8545
    entrypoint: ["node", "/app/ganache-core.docker.cli.js", "--db", "./ganache_cache","--chainId","0x2324","--networkId","0x2324","--gasLimit","10000000000","--gasPrice","1","---hardfork","istanbul","--mnemonic","${GANACHE_MNEMONIC}", "-e", "100", "-a", "20"]
  graph-node:
    environment:
      ethereum: 'development:http://ganache:8545'

Great, our docker environment is now setup. We can finally deploy it by typing docker-compose up inside of ./docker/.

2a. df-py - Configure to connect to Subgraph

Section 2 takes place inside df-py terminal window.

You should have this repository configured and working on your machine.

First, we make sure that we're inside our venv by typing source venv/bin/activate/. Again, we're assuming your requirements.txt, and other dependencies have been properly initialized.

We now df-py connect to Ganache via Brownie. To do this, we're going to add a network so Brownie can listen to our Ganache service.

brownie networks add Ethereum subgraph-ganache host=http://127.0.0.1:8545, chainid=8996

We then update our brownie-config.yaml so that it uses the network above by default.

networks:
  default: subgraph-ganache

You should now be able to verify that the accounts from subgraph-ganache are working from inside df-py brownie.

brownie console --network subgraph-ganache
>>> accounts[0].balance()
100000000000000000000

2b. df-py - Configure dftools and deploy contracts

This section continues from Section 2.

We can now, also configure dftools to use accounts from Ganache, and deploy contracts into ocean-subgraph.

Look inside the ocean-subgraph terminal for the private accounts that were generated for you inside of Ganache. Copy one of their private keys, and do the following inside of df-py/(venv)/

export DFTOOL_KEY=0xYourUserPrivateKeyFromGanache
export WEB3_INFURA_PROJECT_ID=YourInfuraKey

You should now be able to deploy a newToken + veOCEAN + veAllocate contracts.

  // deploy a new token
  dftool newToken 8996
  
  // use the token address from above to deploy veOcean
  dftool newVeOcean 8996 token_address

  // deploy veAllocate
  dftool newVeAllocate 8996

You will need the address from the new veAllocate contract you just deployed for the next section. This contract will be used in the future so our subgraph can listen for events.

3a. ocean-subgraph - Initialize the project

Section 3 takes place inside ocean-subgraph terminal.

We're going to now generate subgraph.yaml so we can start connecting the veOCEAN contract into the logic of ocean-subpgrah.

We begin by running the following node script from the root folder.

node ./scripts/generatenetworkssubgraphs.js

Here, we're going to configure our local subgraph.yaml file so we can serve our local ganache, contracts, and everything that df-py depends on.

Use this file for all of your development until you have things sorted out. If you make any mistakes, you can just recreate the file. You should make your final changes inside of subgraph.template.yaml before submitting a PR.

3b. ocean-subgraph - Configure dataSources

We now configure our subgraph.yaml to talk to ganache and add our veAllocate Contract as a dataSource.

Our first step is to reset our subgraph.yaml so that it can consume all the events. Do a search for startBlock and make sure all params are initialized to 0.

- kind: ethereum/contract
    source:
      startBlock: 0

We then add our contract as a dataSource. We get our address from Section 2b dftool newVeAllocate 8996 and enter it in the dataSources section of the subgraph.yaml file.

dataSources:
  - kind: ethereum/contract
    name: veAllocate
    network: development
    source:
      address: 0x0000000000000000000000000000000
      abi: veAllocate
      startBlock: 0
    mapping:
      kind: ethereum/events
      apiVersion: 0.0.6
      language: wasm/assemblyscript
      file: ./src/mappings/veAllocate.ts
      entities:
        - veAllocate
      abis:
        - name: veAllocate
          file: ./abis/veAllocate.json
      eventHandlers:
        - event: AllocationSet(indexed address,indexed address,indexed uint256,uint256)
          handler: handleAllocationSet

As you can see, we have also imported our veAllocate.json ABI file into the project, added the contract events we want to handle, and created a mapping script ./src/mappings/veAllocate.ts so we can handle all the vents for the Subgraph.

Note: This tutorial will not go into details of how to do this work. Someone can create a separate guide on how to handle internal logic, define GraphQL entities, and save records into GraphQL.

Please review the PR associated with this README for more intuition on this

4a. ocean-subgraph - run: npm run codegen

From the root folder run this command.

You'll have to do this again every time you change schema.graphql

4b. ocean-subgraph - run: npm run create:local

From the root folder run this command.

You'll have to do this again every time you run step 5a.

4c. ocean-subgraph - run: npm run deploy:local

From the root folder run this command.

You'll have to do this again when you write any new subgraph code (mappings, utils, etc...).

5. ocean-subgraph - restart docker

Restart docker containers via docker-compose up

6. df-py - Execute onchain events + query subgraph

You can now start performing your onchain + contract tests and see records inside of your local subgraph.

As an example, you may use the following command inside dftools to generate many onchain events for Ganache.

dftool manyrandom 8996