[![License: AGPL v3](https://img.shields.io/badge/License-AGPL%20v3-blue.svg)](https://www.gnu.org/licenses/agpl-3.0) [![Build pass](https://github.com/AAVE/protocol-v2/actions/workflows/node.js.yml/badge.svg)](https://github.com/aave/protocol-v2/actions/workflows/node.js.yml) ``` .///. .///. //. .// `/////////////- `++:++` .++:++` :++` `++: `++:......---.` `/+: -+/` `++- :+/` /+/ `/+/ `++. /+/ :+/ /+: /+/ `/+/ /+/` `++. -::/++::` /+: -::/++::` `/+: `++: :++` `++/:::::::::. -:+++::-` `/+: --++/---` `++- .++- -++. `++/:::::::::. -++. .++- -++` .++. .++. .++- `++. .++- -++. .++. -++. -++``++- `++. `++: :++` .++- :++` :+//+: `++:----------` -/: :/- -/: :/. ://: `/////////////- ``` # Aave Protocol v2 This repository contains the smart contracts source code and markets configuration for Aave Protocol V2. The repository uses Docker Compose and Hardhat as development enviroment for compilation, testing and deployment tasks. ## What is Aave? Aave is a decentralized non-custodial liquidity markets protocol where users can participate as depositors or borrowers. Depositors provide liquidity to the market to earn a passive income, while borrowers are able to borrow in an overcollateralized (perpetually) or undercollateralized (one-block liquidity) fashion. ## Documentation The documentation of Aave V2 is in the following [Aave V2 documentation](https://docs.aave.com/developers/v/2.0/) link. At the documentation you can learn more about the protocol, see the contract interfaces, integration guides and audits. For getting the latest contracts addresses, please check the [Deployed contracts](https://docs.aave.com/developers/v/2.0/deployed-contracts/deployed-contracts) page at the documentation to stay up to date. A more detailed and technical description of the protocol can be found in this repository, [here](./aave-v2-whitepaper.pdf) ## Audits - MixBytes (16/09/2020 - 03/12/2020): [report](./audits/Mixbytes-aave-v2-03-12-2020.pdf) - PeckShield (29/09/2020 - 03/12/2020) : [report](./audits/Peckshield-aave-v2-03-12-2020-EN.pdf) (Also available in Chinese in the same folder) - CertiK (28/09/2020 - 02/12/2020): [report](./audits/Certik-aave-v2-03-12-2020.pdf) - Consensys Diligence (09/09/2020 - 09/10/2020): [report](https://consensys.net/diligence/audits/2020/09/aave-protocol-v2/) - Certora, formal verification (02/08/2020 - 29/10/2020): [report](./audits/Certora-FV-aave-v2-03-12-2020.pdf) - SigmaPrime (January 2021): [report](./audits/SigmaPrime-aave-v2-01-2021.pdf) ## Connect with the community You can join at the [Discord](http://aave.com/discord) channel or at the [Governance Forum](https://governance.aave.com/) for asking questions about the protocol or talk about Aave with other peers. ## Getting Started You can install `@aave/protocol-v2` as an NPM package in your Hardhat, Buidler or Truffle project to import the contracts and interfaces: `npm install @aave/protocol-v2` Import at Solidity files: ``` import {ILendingPool} from "@aave/protocol-v2/contracts/interfaces/ILendingPool.sol"; contract Misc { function deposit(address pool, address token, address user, uint256 amount) public { ILendingPool(pool).deposit(token, amount, user, 0); {...} } } ``` The JSON artifacts with the ABI and Bytecode are also included into the bundled NPM package at `artifacts/` directory. Import JSON file via Node JS `require`: ``` const LendingPoolV2Artifact = require('@aave/protocol-v2/artifacts/contracts/protocol/lendingpool/LendingPool.sol/LendingPool.json'); // Log the ABI into console console.log(LendingPoolV2Artifact.abi) ``` ## Setup The repository uses Docker Compose to manage sensitive keys and load the configuration. Prior any action like test or deploy, you must run `docker-compose up` to start the `contracts-env` container, and then connect to the container console via `docker-compose exec contracts-env bash`. Follow the next steps to setup the repository: - Install `docker` and `docker-compose` - Create an enviroment file named `.env` and fill the next enviroment variables ``` # Mnemonic, only first address will be used MNEMONIC="" # Add Alchemy or Infura provider keys, alchemy takes preference at the config level ALCHEMY_KEY="" INFURA_KEY="" # Optional Etherscan key, for automatize the verification of the contracts at Etherscan ETHERSCAN_KEY="" # Optional, if you plan to use Tenderly scripts TENDERLY_PROJECT="" TENDERLY_USERNAME="" ``` ## Markets configuration The configurations related with the Aave Markets are located at `markets` directory. You can follow the `IAaveConfiguration` interface to create new Markets configuration or extend the current Aave configuration. Each market should have his own Market configuration file, and their own set of deployment tasks, using the Aave market config and tasks as a reference. ## Test You can run the full test suite with the following commands: ``` # In one terminal docker-compose up # Open another tab or terminal docker-compose exec contracts-env bash # A new Bash terminal is prompted, connected to the container npm run test ``` ## Deployments For deploying Aave Protocol V2, you can use the available scripts located at `package.json`. For a complete list, run `npm run` to see all the tasks. ### Kovan deployment ``` # In one terminal docker-compose up # Open another tab or terminal docker-compose exec contracts-env bash # A new Bash terminal is prompted, connected to the container npm run aave:kovan:full:migration ``` ### Kovan Aave ARC Deployment You can deploy aave-arc with default configuration on kovan. In `markets/aave-arc/commons.ts` make following changes: - Configure `ProviderRegistryOwner` and `ReserveFactorTreasuryAddress` Set owner to your deployer address with kovan funds. Set `ReserveFactorTreasuryAddress` to your team's wallet **Notet:** Script uses first address generated, from `MNEMONIC` provided in `.env` file, as the deployer. ``` ProviderRegistryOwner: { [eEthereumNetwork.kovan]: '0xYourDeployerAddress', // Other network settings. You can leave them empty or same }, ReserveFactorTreasuryAddress: { [eEthereumNetwork.kovan]: '0xYourDeployerAddress, // Other network settings. You can leave them empty or same }, ``` - Configure to deploy new `ProviderRegistry` and `LendingPoolCollateralManager` Set registry and collateral manager address to empty string to deploy new registry. ``` ProviderRegistry: { [eEthereumNetwork.kovan]: '', // Other network settings. You can leave them empty or same }, LendingPoolCollateralManager: { [eEthereumNetwork.kovan]: '', } ``` - Configure to deploy/initialize `PermissionedWethGateWay` Set gateway address to empty string to deploy new. ``` WethGateway: { [eEthereumNetwork.kovan]: '', // Other network settings. You can leave them empty or same }, ``` **Note:** To configure aave arc market you can update `markets/aave-arc/` #### Deploy Market **Using Docker** ``` # In one terminal docker-compose up # Open another tab or terminal docker-compose exec contracts-env bash # A new Bash terminal is prompted, connected to the container npm run arc:kovan:full:migration ``` **Without Docker** ``` npm run arc:kovan:full:migration ``` ### Mainnet fork deployment You can deploy Aave Protocol v2 in a forked Mainnet chain using Hardhat built-in fork feature: ``` docker-compose run contracts-env npm run aave:fork:main ``` ### Deploy Aave into a Mainnet Fork via console You can deploy Aave into the Hardhat console in fork mode, to interact with the protocol inside the fork or for testing purposes. Run the console in Mainnet fork mode: ``` docker-compose run contracts-env npm run console:fork ``` At the Hardhat console, interact with the Aave protocol in Mainnet fork mode: ``` // Deploy the Aave protocol in fork mode await run('aave:mainnet') // Or your custom Hardhat task await run('your-custom-task'); // After you initialize the HRE via 'set-DRE' task, you can import any TS/JS file run('set-DRE'); // Import contract getters to retrieve an Ethers.js Contract instance const contractGetters = require('./helpers/contracts-getters'); // Import a TS/JS file // Lending pool instance const lendingPool = await contractGetters.getLendingPool("LendingPool address from 'aave:mainnet' task"); // You can impersonate any Ethereum address await network.provider.request({ method: "hardhat_impersonateAccount", params: ["0xb1adceddb2941033a090dd166a462fe1c2029484"]}); const signer = await ethers.provider.getSigner("0xb1adceddb2941033a090dd166a462fe1c2029484") // ERC20 token DAI Mainnet instance const DAI = await contractGetters.getIErc20Detailed("0x6B175474E89094C44Da98b954EedeAC495271d0F"); // Approve 100 DAI to LendingPool address await DAI.connect(signer).approve(lendingPool.address, ethers.utils.parseUnits('100')); // Deposit 100 DAI await lendingPool.connect(signer).deposit(DAI.address, ethers.utils.parseUnits('100'), await signer.getAddress(), '0'); ``` ## Interact with Aave in Mainnet via console You can interact with Aave at Mainnet network using the Hardhat console, in the scenario where the frontend is down or you want to interact directly. You can check the deployed addresses at https://docs.aave.com/developers/deployed-contracts. Run the Hardhat console pointing to the Mainnet network: ``` docker-compose run contracts-env npx hardhat --network main console ``` At the Hardhat console, you can interact with the protocol: ``` // Load the HRE into helpers to access signers run("set-DRE") // Import getters to instance any Aave contract const contractGetters = require('./helpers/contracts-getters'); // Load the first signer const signer = await contractGetters.getFirstSigner(); // Lending pool instance const lendingPool = await contractGetters.getLendingPool("0x7d2768dE32b0b80b7a3454c06BdAc94A69DDc7A9"); // ERC20 token DAI Mainnet instance const DAI = await contractGetters.getIErc20Detailed("0x6B175474E89094C44Da98b954EedeAC495271d0F"); // Approve 100 DAI to LendingPool address await DAI.connect(signer).approve(lendingPool.address, ethers.utils.parseUnits('100')); // Deposit 100 DAI await lendingPool.connect(signer).deposit(DAI.address, ethers.utils.parseUnits('100'), await signer.getAddress(), '0'); ```