This is a repo to work with and use NFTs smart contracts in a python environment, using the Chainlink-mix as a starting point.
Please install or have installed the following:
- Install Brownie, if you haven't already. Here is a simple way to install brownie.
pip install eth-brownie
Or via pipx
pip install --user pipx
pipx ensurepath
# restart your terminal
pipx install eth-brownie
- Clone this repo
brownie bake nft-mix
cd nft
npm install -g ganache-cli
In order to deploy to testnets, do the following.
- Set your environment variables
Set your WEB3_INFURA_PROJECT_ID
, and PRIVATE_KEY
environment variables.
You can get a WEB3_INFURA_PROJECT_ID
with free trial of Infura. Can find your PRIVATE_KEY
from your ethereum wallet like metamask.
You'll also need testnet rinkeby ETH and LINK. You can get LINK and ETH into your wallet by using the rinkeby faucets located here.
You can add your environment variables to the .env
file:
export WEB3_INFURA_PROJECT_ID=<PROJECT_ID>
export PRIVATE_KEY=<PRIVATE_KEY>
Then, make sure your brownie-config.yaml
has:
dotenv: .env
You can also learn how to set environment variables easier
Or you can run the above in your shell.
There are 2 types of NFTs here.
SimpleCollectibles.sol
AdvancedCollectibles.sol
They each deploy unique dogs. The advanced version gives you a random breed (out of a Pug, Shiba Inu, and St. Bernard).
The advanced collection uses a Chainlink VRF to deploy the random dog.
You can 100% use the rinkeby testnet to see your NFTs rendered on opensea, but it's suggested that you test and build on a local development network so you don't have to wait as long for transactions.
The simple collectibles work on a local network, however the advanced requires a testnet. We default to rinkeby since that seems to be the testing standard for NFT platforms. You will need testnet rinkeby ETH and testnet Rinkeby LINK. You can find faucets for both in the Chainlink documentation.
brownie run scripts/simple_collectible/deploy_simple.py --network rinkeby
brownie run scripts/simple_collectible/create_collectible.py --network rinkeby
You'll need testnet Rinkeby and testnet LINK in the wallet associated with your private key.
brownie run scripts/advanced_collectible/deploy_advanced.py --network rinkeby
brownie run scripts/advanced_collectible/create_collectible.py --network rinkeby
Then:
brownie run scripts/advanced_collectible/create_metadata.py --network rinkeby
brownie run scripts/advanced_collectible/set_tokenuri.py --network rinkeby
The simple contract and the advanced contract can be verified if you just set your ETHERSCAN_TOKEN
.
There are some helpful scripts in helpful_scripts.py
.
After running the scripts from the For the Advanced ERC721
section
- Create the metadata
Metadata is the URI needed to upload data. You can either:
- Upload to IPFS yourself
- Use the metadata already created when you cloned this repo.
Download IPFS
Set export IPFS_URL=http://127.0.0.1:5001
and export UPLOAD_IPFS=true
environment variables
Run the IPFS daemon: ipfs daemon
Then Run
brownie run scripts/advanced_collectible/create_metadata.py --network rinkeby
Alternatively, you could upload the uri manually:
Add the file created in metadata/rinkeby/NAME.json
to IPFS or Pinata.
Just run:
brownie run scripts/advanced_collectible/create_metadata.py --network rinkeby
- Set the tokenURI Run
brownie run scripts/advanced_collectible/set_tokenuri.py --network rinkeby
And after some time, (you may have to wait up to 20 minutes for it to render on opensea), you should see your NFT on opensea! It'll look something like this.
If you want to auto-upload to pinata instead of IPFS automatically, you can do so by getting a Pinata API Key.
You'll need the following environment variables (you can get them from Pinata)
PINATA_API_KEY
PINATA_API_SECRET
Then run:
python scripts/upload_to_pinata.py
brownie test
pip install black
pip install autoflake
autoflake --in-place --remove-unused-variables -r .
black .