Core
In this tutorial you'll learn how to implement the core standards into your smart contract. If you're joining us for the first time, feel free to clone this repo and checkout the 3.enumeration
branch to follow along.
git checkout 3.enumeration
If you wish to see the finished code for this Core tutorial, you can find it on the 4.core
branch.
Introduction
Up until this point, you've created a simple NFT smart contract that allows users to mint tokens and view information using the enumeration standards. Today, you'll expand your smart contract to allow for users to not only mint tokens, but transfer them as well.
As we did in the minting tutorial, let's break down the problem into multiple subtasks to make our lives easier. When a token is minted, information is stored in 3 places:
- tokensPerOwner: set of tokens for each account.
- tokensById: maps a token ID to a
Token
object. - tokenMetadataById: maps a token ID to its metadata.
Let's now consider the following scenario. If Benji owns token A and wants to transfer it to Mike as a birthday gift, what should happen? First of all, token A should be removed from Benji's set of tokens and added to Mike's set of tokens.
If that's the only logic you implement, you'll run into some problems. If you were to do a view
call to query for information about that token after it's been transferred to Mike, it would still say that Benji is the owner.
This is because the contract is still mapping the token ID to the old Token
object that contains the owner_id
field set to Benji's account ID. You still have to change the tokensById
data structure so that the token ID maps to a new Token
object which has Mike as the owner.
With that being said, the final process for when an owner transfers a token to a receiver should be the following:
- Remove the token from the owner's set.
- Add the token to the receiver's set.
- Map a token ID to a new
Token
object containing the correct owner.
You might be curious as to why we don't edit the tokenMetadataById
field. This is because no matter who owns the token, the token ID will always map to the same metadata. The metadata should never change and so we can just leave it alone.
At this point, you're ready to move on and make the necessary modifications to your smart contract.
Modifications to the contract
Let's start our journey in the nft-contract/src/nft_core.ts
file.
Transfer function
You'll start by implementing the nft_transfer
logic. This function will transfer the specified token_id
to the receiver_id
with an optional memo
such as "Happy Birthday Mike!"
. The core logic will be found in the internalNftTransfer
function.
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There are a couple things to notice here. Firstly, we've introduced a new function called assertOneYocto()
. This method will ensure that the user has attached exactly one yoctoNEAR to the call. If a function requires a deposit, you need a full access key to sign that transaction. By adding the one yoctoNEAR deposit requirement, you're essentially forcing the user to sign the transaction with a full access key.
Since the transfer function is potentially transferring very valuable assets, you'll want to make sure that whoever is calling the function has a full access key.
Secondly, we've introduced an internalTransfer
method. This will perform all the logic necessary to transfer an NFT.
Internal helper functions
Let's quickly move over to the nft-contract/src/internal.ts
file so that you can implement the assertOneYocto()
and internalTransfer
methods.
Let's start with the easier one, assertOneYocto()
.
assertOneYocto
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internal_transfer
It's now time to implement the internalTransfer
function which is the core of this tutorial. This function will take the following parameters:
- senderId: the account that's attempting to transfer the token.
- receiverId: the account that's receiving the token.
- tokenId: the token ID being transferred.
- memo: an optional memo to include.
The first thing you'll want to do is to make sure that the sender is authorized to transfer the token. In this case, you'll just make sure that the sender is the owner of the token. You'll do that by getting the Token
object using the token_id
and making sure that the sender is equal to the token's owner_id
.
Second, you'll remove the token ID from the sender's list and add the token ID to the receiver's list of tokens. Finally, you'll create a new Token
object with the receiver as the owner and remap the token ID to that newly created object.
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You've previously implemented functionality for adding a token ID to an owner's set but you haven't created the functionality for removing a token ID from an owner's set. Let's do that now by created a new function called internalRemoveTokenFromOwner
which we'll place right above our internalTransfer
and below the internalAddTokenToOwner
function.
In the remove function, you'll get the set of tokens for a given account ID and then remove the passed in token ID. If the account's set is empty after the removal, you'll simply remove the account from the tokensPerOwner
data structure.
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With these internal functions complete, the logic for transferring NFTs is finished. It's now time to move on and implement nft_transfer_call
, one of the most integral yet complicated functions of the standard.
Transfer call function
Let's consider the following scenario. An account wants to transfer an NFT to a smart contract for performing a service. The traditional approach would be to use an approval management system, where the receiving contract is granted the ability to transfer the NFT to themselves after completion. You'll learn more about the approval management system in the approvals section of the tutorial series.
This allowance workflow takes multiple transactions. If we introduce a “transfer and call” workflow baked into a single transaction, the process can be greatly improved.
For this reason, we have a function nft_transfer_call
which will transfer an NFT to a receiver and also call a method on the receiver's contract all in the same transaction.
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The function will first assert that the caller attached exactly 1 yocto for security purposes. It will then transfer the NFT using internalTransfer
and start the cross contract call. It will call the method nft_on_transfer
on the receiver_id
's contract which returns a promise. After the promise finishes executing, the function nft_resolve_transfer
is called. This is a very common workflow when dealing with cross contract calls. You first initiate the call and wait for it to finish executing. You then invoke a function that resolves the result of the promise and act accordingly.
In our case, when calling nft_on_transfer
, that function will return whether or not you should return the NFT to it's original owner in the form of a boolean. This is logic will be executed in the internalResolveTransfer
function.
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If nft_on_transfer
returned true, you should send the token back to it's original owner. On the contrary, if false was returned, no extra logic is needed. As for the return value of nft_resolve_transfer
, the standard dictates that the function should return a boolean indicating whether or not the receiver successfully received the token or not.
This means that if nft_on_transfer
returned true, you should return false. This is because if the token is being returned to its original owner. The receiver_id
didn't successfully receive the token in the end. On the contrary, if nft_on_transfer
returned false, you should return true since we don't need to return the token and thus the receiver_id
successfully owns the token.
With that finished, you've now successfully added the necessary logic to allow users to transfer NFTs. It's now time to deploy and do some testing.
Redeploying the contract
Using the build script, build and deploy the contract as you did in the previous tutorials:
yarn build && near deploy --wasmFile build/nft.wasm --accountId $NFT_CONTRACT_ID
This should output a warning saying that the account has a deployed contract and will ask if you'd like to proceed. Simply type y
and hit enter.
This account already has a deployed contract [ AKJK7sCysrWrFZ976YVBnm6yzmJuKLzdAyssfzK9yLsa ]. Do you want to proceed? (y/n)
If you haven't completed the previous tutorials and are just following along with this one, simply create an account and login with your CLI using near login
. You can then export an environment variable export NFT_CONTRACT_ID=YOUR_ACCOUNT_ID_HERE
.
Testing the new changes
Now that you've deployed a patch fix to the contract, it's time to move onto testing. Using the previous NFT contract where you had minted a token to yourself, you can test the nft_transfer
method. If you transfer the NFT, it should be removed from your account's collectibles displayed in the wallet. In addition, if you query any of the enumeration functions, it should show that you are no longer the owner.
Let's test this out by transferring an NFT to the account benjiman.testnet
and seeing if the NFT is no longer owned by you.