Royalty
In this tutorial you'll continue building your non-fungible token (NFT) smart contract, and learn how to implement perpetual royalties into your NFTs. This will allow people to get a percentage of the purchase price when an NFT is sold.
Introduction
By now, you should have a fully fledged NFT contract, except for the royalties support.
To get started, go to the nft-contract-approval/
folder from our GitHub repository, or continue your work from the previous tutorials.
cd nft-contract-approval/
If you wish to see the finished code for this Royalty tutorial, you can find it in the nft-contract-royalty
folder.
Thinking about the problem
In order to implement the functionality, you first need to understand how NFTs are sold. In the previous tutorial, you saw how someone with an NFT could list it on a marketplace using the nft_approve
function by passing in a message that could be properly decoded. When a user purchases your NFT on the marketplace, what happens?
Using the knowledge you have now, a reasonable conclusion would be to say that the marketplace transfers the NFT to the buyer by performing a cross-contract call and invokes the NFT contract's nft_transfer
method. Once that function finishes, the marketplace would pay the seller for the correct amount that the buyer paid.
Let's now think about how this can be expanded to allow for a cut of the pay going to other accounts that aren't just the seller.
Expanding the current solution
Since perpetual royalties will be on a per-token basis, it's safe to assume that you should be changing the Token
and JsonToken
structs. You need some way of keeping track of what percentage each account with a royalty should have. If you introduce a map of an account to an integer, that should do the trick.
Now, you need some way to relay that information to the marketplace. This method should be able to transfer the NFT exactly like the old solution but with the added benefit of telling the marketplace exactly what accounts should be paid what amounts. If you implement a method that transfers the NFT and then calculates exactly what accounts get paid and to what amount based on a passed-in balance, that should work nicely.
This is what the royalty standards outlined. Let's now move on and modify our smart contract to introduce this behavior.
Modifications to the contract
The first thing you'll want to do is add the royalty information to the structs. Open the nft-contract-approval/src/metadata.rs
file and add royalty
to the Token
struct:
pub royalty: HashMap<AccountId, u32>,
Second, you'll want to add royalty
to the JsonToken
struct as well:
pub royalty: HashMap<AccountId, u32>,
Internal helper function
royalty_to_payout
To simplify the payout calculation, let's add a helper royalty_to_payout
function to src/internal.rs
. This will convert a percentage to the actual amount that should be paid. In order to allow for percentages less than 1%, you can give 100% a value of 10,000
. This means that the minimum percentage you can give out is 0.01%, or 1
. For example, if you wanted the account benji.testnet
to have a perpetual royalty of 20%, you would insert the pair "benji.testnet": 2000
into the payout map.
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If you were to use the royalty_to_payout
function and pass in 2000
as the royalty_percentage
and an amount_to_pay
of 1 NEAR, it would return a value of 0.2 NEAR.
Royalties
nft_payout
Let's now implement a method to check what accounts will be paid out for an NFT given an amount, or balance. Open the nft-contract/src/royalty.rs
file, and modify the nft_payout
function as shown.
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This function will loop through the token's royalty map and take the balance and convert that to a payout using the royalty_to_payout
function you created earlier. It will give the owner of the token whatever is left from the total royalties. As an example:
You have a token with the following royalty field:
Token {
owner_id: "damian",
royalty: {
"benji": 1000,
"josh": 500,
"mike": 2000
}
}
If a user were to call nft_payout
on the token and pass in a balance of 1 NEAR, it would loop through the token's royalty field and insert the following into the payout object:
Payout {
payout: {
"benji": 0.1 NEAR,
"josh": 0.05 NEAR,
"mike": 0.2 NEAR
}
}
At the very end, it will insert damian
into the payout object and give him 1 NEAR - 0.1 - 0.05 - 0.2 = 0.65 NEAR
.
nft_transfer_payout
Now that you know how payouts are calculated, it's time to create the function that will transfer the NFT and return the payout to the marketplace.
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Perpetual royalties
To add support for perpetual royalties, let's edit the src/mint.rs
file. First, add an optional parameter for perpetual royalties. This is what will determine what percentage goes to which accounts when the NFT is purchased. You will also need to create and insert the royalty to be put in the Token
object:
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Next, you can use the CLI to query the new nft_payout
function and validate that it works correctly.
Adding royalty object to struct implementations
Since you've added a new field to your Token
and JsonToken
structs, you need to edit your implementations accordingly. Move to the nft-contract/src/internal.rs
file and edit the part of your internal_transfer
function that creates the new Token
object:
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Once that's finished, move to the nft-contract-approval/src/nft_core.rs
file. You need to edit your implementation of nft_token
so that the JsonToken
sends back the new royalty information.
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Deploying the contract
As you saw in the previous tutorial, adding changes like these will cause problems when redeploying. Since these changes affect all the other tokens and the state won't be able to automatically be inherited by the new code, simply redeploying the contract will lead to errors. For this reason, you'll create a new account again.
Deployment and initialization
Next, you'll deploy this contract to the network.
- Short
- Full
export ROYALTY_NFT_CONTRACT_ID=<accountId>
near create-account $ROYALTY_NFT_CONTRACT_ID --useFaucet
export ROYALTY_NFT_CONTRACT_ID=<accountId>
near account create-account sponsor-by-faucet-service $ROYALTY_NFT_CONTRACT_ID autogenerate-new-keypair save-to-keychain network-config testnet create
Using the cargo-near, deploy and initialize the contract as you did in the previous tutorials:
cargo near deploy $ROYALTY_NFT_CONTRACT_ID with-init-call new_default_meta json-args '{"owner_id": "'$ROYALTY_NFT_CONTRACT_ID'"}' prepaid-gas '100.0 Tgas' attached-deposit '0 NEAR' network-config testnet sign-with-keychain send
Minting
Next, you'll need to mint a token. By running this command, you'll mint a token with a token ID "royalty-token"
and the receiver will be your new account. In addition, you're passing in a map with two accounts that will get perpetual royalties whenever your token is sold.
- Short
- Full
near call $ROYALTY_NFT_CONTRACT_ID nft_mint '{"token_id": "royalty-token", "metadata": {"title": "Royalty Token", "description": "testing out the new royalty extension of the standard", "media": "https://bafybeiftczwrtyr3k7a2k4vutd3amkwsmaqyhrdzlhvpt33dyjivufqusq.ipfs.dweb.link/goteam-gif.gif"}, "receiver_id": "'$ROYALTY_NFT_CONTRACT_ID'", "perpetual_royalties": {"benjiman.testnet": 2000, "mike.testnet": 1000, "josh.testnet": 500}}' --gas 100000000000000 --deposit 0.1 --accountId $ROYALTY_NFT_CONTRACT_ID --networkId testnet
near contract call-function as-transaction $ROYALTY_NFT_CONTRACT_ID nft_mint json-args '{"token_id": "royalty-token", "metadata": {"title": "Royalty Token", "description": "testing out the new royalty extension of the standard", "media": "https://bafybeiftczwrtyr3k7a2k4vutd3amkwsmaqyhrdzlhvpt33dyjivufqusq.ipfs.dweb.link/goteam-gif.gif"}, "receiver_id": "'$ROYALTY_NFT_CONTRACT_ID'", "perpetual_royalties": {"benjiman.testnet": 2000, "mike.testnet": 1000, "josh.testnet": 500}}' prepaid-gas '100.0 Tgas' attached-deposit '0.1 NEAR' sign-as $ROYALTY_NFT_CONTRACT_ID network-config testnet sign-with-keychain send
You can check to see if everything went through properly by calling one of the enumeration functions:
- Short
- Full
near view $ROYALTY_NFT_CONTRACT_ID nft_tokens_for_owner '{"account_id": "'$ROYALTY_NFT_CONTRACT_ID'", "limit": 10}' --networkId testnet
near contract call-function as-read-only $ROYALTY_NFT_CONTRACT_ID nft_tokens_for_owner json-args '{"account_id": "'$ROYALTY_NFT_CONTRACT_ID'", "limit": 10}' network-config testnet now
This should return an output similar to the following:
[
{
"token_id": "royalty-token",
"owner_id": "royalty.goteam.examples.testnet",
"metadata": {
"title": "Royalty Token",
"description": "testing out the new royalty extension of the standard",
"media": "https://bafybeiftczwrtyr3k7a2k4vutd3amkwsmaqyhrdzlhvpt33dyjivufqusq.ipfs.dweb.link/goteam-gif.gif",
"media_hash": null,
"copies": null,
"issued_at": null,
"expires_at": null,
"starts_at": null,
"updated_at": null,
"extra": null,
"reference": null,
"reference_hash": null
},
"approved_account_ids": {},
"royalty": {
"josh.testnet": 500,
"benjiman.testnet": 2000,
"mike.testnet": 1000
}
}
]
Notice how there's now a royalty field that contains the 3 accounts that will get a combined 35% of all sales of this NFT? Looks like it works! Go team :)
NFT payout
Let's calculate the payout for the "royalty-token"
NFT, given a balance of 100 yoctoNEAR. It's important to note that the balance being passed into the nft_payout
function is expected to be in yoctoNEAR.
- Short
- Full
near view $ROYALTY_NFT_CONTRACT_ID nft_payout '{"token_id": "royalty-token", "balance": "100", "max_len_payout": 100}' --networkId testnet
near contract call-function as-read-only $ROYALTY_NFT_CONTRACT_ID nft_payout json-args '{"token_id": "royalty-token", "balance": "100", "max_len_payout": 100}' network-config testnet now
This command should return an output similar to the following:
{
payout: {
'josh.testnet': '5',
'royalty.goteam.examples.testnet': '65',
'mike.testnet': '10',
'benjiman.testnet': '20'
}
}
If the NFT was sold for 100 yoctoNEAR, josh would get 5, Benji would get 20, mike would get 10, and the owner, in this case royalty.goteam.examples.testnet
would get the rest: 65.
Conclusion
At this point you have everything you need for a fully functioning NFT contract to interact with marketplaces. The last remaining standard that you could implement is the events standard. This allows indexers to know what functions are being called and makes it easier and more reliable to keep track of information that can be used to populate the collectibles tab in the wallet for example.
If you want to see the finished code from this tutorial, you can go to the nft-contract-royalty
folder.