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Yearn Strategy Brownie Mix

What you'll find here

  • Basic Solidity Smart Contract for creating your own Yearn Strategy (contracts/Strategy.sol)

  • Interfaces for some of the most used DeFi protocols on ethereum mainnet. (interfaces/)

  • Sample test suite that runs on mainnet fork. (tests/)

This mix is configured for use with Ganache on a forked mainnet.

How does it work for the User

Let's say Alice holds 100 DAI and wants to start earning yield % on them.

For this Alice needs to DAI.approve(vault.address, 100).

Then Alice will call Vault.deposit(100).

Vault will then transfer 100 DAI from Alice to itself, and mint Alice the corresponding shares.

Alice can then redeem those shares using Vault.withdrawAll() for the corresponding DAI balance (exchanged at Vault.pricePerShare()).

Installation and Setup

  1. Install Brownie & Ganache-CLI, if you haven't already.

  2. Sign up for Infura and generate an API key. Store it in the WEB3_INFURA_PROJECT_ID environment variable.

export WEB3_INFURA_PROJECT_ID=YourProjectID
  1. Sign up for Etherscan and generate an API key. This is required for fetching source codes of the mainnet contracts we will be interacting with. Store the API key in the ETHERSCAN_TOKEN environment variable.
export ETHERSCAN_TOKEN=YourApiToken
  • Optional Use .env file
    1. Make a copy of .env.example
    2. Add the values for ETHERSCAN_TOKEN and WEB3_INFURA_PROJECT_ID NOTE: If you set up a global environment variable, that will take precedence
  1. Download the mix.
brownie bake yearn-strategy

Basic Use

To deploy the demo Yearn Strategy in a development environment:

  1. Open the Brownie console. This automatically launches Ganache on a forked mainnet.
$ brownie console
  1. Create variables for the Yearn Vault and Want Token addresses. These were obtained from the Yearn Registry. We load them from a different repository found in the brownie-config.yml under dependencies (yearn/yearn-vaults@0.4.3):
from pathlib import Path
yearnvaults = project.load(Path.home() / ".brownie" / "packages" / config["dependencies"][0]) #load the base vaults project to access the original Vault contract
Vault = yearnvaults.Vault
Token = yearnvaults.Token
vault = Vault.at("0xdA816459F1AB5631232FE5e97a05BBBb94970c95")
token = Token("0x6b175474e89094c44da98b954eedeac495271d0f")
gov = "ychad.eth"  # ENS for Yearn Governance Multisig

Or we can access them by using the ABI (the jsons you find under build):

vault = interface.VaultAPI("0xdA816459F1AB5631232FE5e97a05BBBb94970c95")  # yvDAI (v0.4.3)
token = interface.IERC20("0x6b175474e89094c44da98b954eedeac495271d0f")  # DAI
gov = "ychad.eth"  # ENS for Yearn Governance Multisig
  1. Deploy the Strategy.sol contract.
>>> strategy = Strategy.deploy(vault, {"from": accounts[0]})
Transaction sent: 0xc8a35b3ecbbed196a344ed6b5c7ee6f50faf9b7eee836044d1c7ffe10093ef45
  Gas price: 0.0 gwei   Gas limit: 6721975
  Flashloan.constructor confirmed - Block: 9995378   Gas used: 796934 (11.86%)
  Flashloan deployed at: 0x3194cBDC3dbcd3E11a07892e7bA5c3394048Cc87
  1. Approve the strategy for the Vault. We must do this because we only approved Strategies can pull funding from the Vault.
# 1000 DAI debt limit, no rate limit, 50 bps strategist fee
>>> vault.addStrategy(strategy, Wei("1000 ether"), 2 ** 256 - 1, 50, {"from": gov})
Transaction sent: 0xa70b90eb9a9899e8f6e709c53a436976315b4279c4b6797d0a293e169f94d5b4
  Gas price: 0.0 gwei   Gas limit: 6721975
  Transaction confirmed - Block: 9995379   Gas used: 21055 (0.31%)
  1. Now we are ready to put our strategy into action!
>>> harvest_tx = strategy.harvest({"from": accounts[0]})  # perform as many time as desired...

Implementing Strategy Logic

contracts/Strategy.sol is where you implement your own logic for your strategy. In particular:

  • Create a descriptive name for your strategy via Strategy.name().
  • Invest your want tokens via Strategy.adjustPosition().
  • Take profits and report losses via Strategy.prepareReturn().
  • Unwind enough of your position to payback withdrawals via Strategy.liquidatePosition().
  • Unwind all of your positions via Strategy.exitPosition().
  • Fill in a way to estimate the total want tokens managed by the strategy via Strategy.estimatedTotalAssets().
  • Migrate all the positions managed by your strategy via Strategy.prepareMigration().
  • Make a list of all position tokens that should be protected against movements via Strategy.protectedTokens().

Testing

To run the tests:

brownie test

The example tests provided in this mix start by deploying and approving your Strategy.sol contract. This ensures that the loan executes succesfully without any custom logic. Once you have built your own logic, you should edit tests/test_flashloan.py and remove this initial funding logic.

See the Brownie documentation for more detailed information on testing your project.

Debugging Failed Transactions

Use the --interactive flag to open a console immediatly after each failing test:

brownie test --interactive

Within the console, transaction data is available in the history container:

>>> history
[<Transaction '0x50f41e2a3c3f44e5d57ae294a8f872f7b97de0cb79b2a4f43cf9f2b6bac61fb4'>,
 <Transaction '0xb05a87885790b579982983e7079d811c1e269b2c678d99ecb0a3a5104a666138'>]

Examine the TransactionReceipt for the failed test to determine what went wrong. For example, to view a traceback:

>>> tx = history[-1]
>>> tx.traceback()

To view a tree map of how the transaction executed:

>>> tx.call_trace()

See the Brownie documentation for more detailed information on debugging failed transactions.

Known issues

No access to archive state errors

If you are using Ganache to fork a network, then you may have issues with the blockchain archive state every 30 minutes. This is due to your node provider (i.e. Infura) only allowing free users access to 30 minutes of archive state. To solve this, upgrade to a paid plan, or simply restart your ganache instance and redploy your contracts.

Resources

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License:GNU Affero General Public License v3.0


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