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ERC721

The ERC721 token standard is a specification for non-fungible tokens, or more colloquially: NFTs. The ERC721.cairo contract implements an approximation of EIP-721 in Cairo for StarkNet.

Table of Contents

IERC721

@contract_interface
namespace IERC721:
    func balanceOf(owner: felt) -> (balance: Uint256):
    end

    func ownerOf(tokenId: Uint256) -> (owner: felt):
    end

    func safeTransferFrom(
        _from: felt, 
        to: felt, 
        tokenId: Uint256, 
        data_len: felt,
        data: felt*
    ):

    func transferFrom(_from: felt, to: felt, tokenId: Uint256):
    end

    func approve(approved: felt, tokenId: Uint256):
    end

    func setApprovalForAll(operator: felt, approved: felt):
    end

    func getApproved(tokenId: Uint256) -> (approved: felt):
    end

    func isApprovedForAll(owner: felt, operator: felt) -> (isApproved: felt):
    end

    --------------- IERC165 ---------------

    func supportsInterface(interfaceId: felt) -> (success: felt):
    end
end

ERC721 Compatibility

Although StarkNet is not EVM compatible, this implementation aims to be as close as possible to the ERC721 standard in the following ways:

  • it uses Cairo's uint256 instead of felt
  • it returns 1 as true/success to imitate a bool
  • it makes use of Cairo's short strings to simulate name and symbol
  • it will emit events once they're implemented on StarkNet

But some differences can still be found, such as:

  • tokenURI returns a felt representation of the queried token's URI. The EIP721 standard, however, states that the return value should be of type string. If a token's URI is not set, the returned value is 0. Note that URIs cannot exceed 31 characters. See Interpreting ERC721 URIs

  • interface_ids are hardcoded and initialized by the constructor. The hardcoded values derive from Solidity's selector calculations. See Supporting Interfaces

  • safeTransferFrom can only be expressed as a single function in Cairo as opposed to the two functions declared in EIP721. The difference between both functions consists of accepting data as an argument. Because function overloading is currently not possible in Cairo, safeTransferFrom by default accepts the data argument. If data is not used, simply insert 0.

  • safeTransferFrom is specified such that the optional data argument should be of type bytes. In Solidity, this means a dynamically-sized array. To be as close as possible to the standard, it accepts a dynamic array of felts. In Cairo, arrays are expressed with the array length preceding the actual array; hence, the method accepts data_len and data respectively as types felt and felt*

  • ERC165_register_interface allows contracts to set and communicate which interfaces they support. This follows OpenZeppelin's ERC165Storage

  • IERC721_Receiver compliant contracts (ERC721_Holder) return a hardcoded selector id according to EVM selectors, since selectors are calculated differently in Cairo. This is in line with the ERC165 interfaces design choice towards EVM compatibility

  • IERC721_Receiver compliant contracts (ERC721_Holder) must support ERC165 by registering the IERC721_Receiver selector id in its constructor and exposing the supportsInterface method. In doing so, recipient contracts (both accounts and non-accounts) can be verified that they support ERC721 transfers

  • ERC721_Enumerable tracks the total number of tokens with the all_tokens and all_tokens_len storage variables mimicking the array of the Solidity implementation.

Usage

Use cases go from artwork, digital collectibles, physical property, and many more.

To show a standard use case, we'll use the ERC721_Mintable preset which allows for only the owner to mint and burn tokens. To create a token you need to first deploy both Account and ERC721 contracts respectively. As most StarkNet contracts, ERC721 expects to be called by another contract and it identifies it through get_caller_address (analogous to Solidity's this.address). This is why we need an Account contract to interact with it.

Considering that the ERC721 constructor method looks like this:

func constructor(
    name: felt,          # Token name as Cairo short string
    symbol: felt,        # Token symbol as Cairo short string
    owner: felt          # Address designated as the contract owner
):

Deployment of both contracts looks like this:

account = await starknet.deploy(
    "contracts/Account.cairo",
    constructor_calldata=[signer.public_key]
)

erc721 = await starknet.deploy(
    "contracts/token/ERC721_Mintable.cairo",
    constructor_calldata=[
        str_to_felt("Token"),                       # name
        str_to_felt("TKN"),                         # symbol
        account.contract_address                    # owner
    ]
)

To mint a non-fungible token, send a transaction like this:

signer = Signer(PRIVATE_KEY)
tokenId = uint(1)

await signer.send_transaction(
    account, erc721.contract_address, 'mint', [
        recipient_address, 
        *tokenId
    ]
)

Token Transfers

EIP721 discourages the use of transferFrom and favors safeTransferFrom in regard to token transfers. The safe function adds the following conditional logic:

  1. if the calling address is an account contract, the token transfer will behave as if transferFrom was called
  2. if the calling address is not an account contract, the safe function will check that the contract supports ERC721 tokens

The current implementation of safeTansferFrom checks for onERC721Received and requires that the recipient contract supports ERC165 and exposes the supportsInterface method. See ERC721Received

Please be aware that transferring tokens with transferFrom to a contract that does not support ERC721 can result in lost tokens forever.

Interpreting ERC721 URIs

Token URIs in Cairo are stored as single field elements. Each field element equates to 252-bits (or 31.5 bytes) which means that a token's URI can be no longer than 31 characters.

Note that storing the URI as an array of felts was considered to accommodate larger strings. While this approach is more flexible regarding URIs, a returned array further deviates from the standard set in EIP721. Therefore, this library's ERC721 implementation sets URIs as a single field element.

The utils.py module includes utility methods for converting to/from Cairo field elements. To properly interpret a URI from ERC721, simply trim the null bytes and decode the remaining bits as an ASCII string. For example:

# HELPER METHODS
def str_to_felt(text):
    b_text = bytes(text, 'ascii')
    return int.from_bytes(b_text, "big")

def felt_to_str(felt):
    b_felt = felt.to_bytes(31, "big")
    return b_felt.decode()

token_id = uint(1)
sample_uri = str_to_felt('mock://mytoken')

await signer.send_transaction(
    account, erc721.contract_address, 'setTokenURI', [
        *token_id, sample_uri]
)

felt_uri = await erc721.tokenURI(first_token_id).call()
string_uri = felt_to_str(felt_uri)

ERC721Received

In order to be sure a contract can safely accept ERC721 tokens, said contract must implement the ERC721_Receiver interface (as expressed in the EIP721 specification). Methods such as safeTransferFrom and safeMint call the recipient contract's onERC721Received method. If the contract fails to return the correct magic value, the transaction fails.

StarkNet contracts that support safe transfers, however, must also support ERC165 and include supportsInterface as proposed in #100. safeTransferFrom requires a means of differentiating between account and non-account contracts. Currently, StarkNet does not support error handling from the contract level; therefore, the current ERC721 implementation requires that all contracts that support safe ERC721 transfers (both accounts and non-accounts) include the supportsInterface method. Further, supportsInterface should return 1 (true) if the recipient contract supports the IERC721_Receiver magic value 0x150b7a02 (which invokes onERC721Received). If the recipient contract supports the IAccount magic value 0x50b70dcb, supportsInterface should return 1 (true). Otherwise, safeTransferFrom should fail.

IERC721_Receiver

Interface for any contract that wants to support safeTransfers from ERC721 asset contracts.

@contract_interface
namespace IERC721_Receiver:
    func onERC721Received(
        operator: felt,
        _from: felt,
        tokenId: Uint256,
        data_len: felt
        data: felt*
    ) -> (selector: felt):
    end
end

Supporting Interfaces

In order to ensure EVM/StarkNet compatibility, this ERC721 implementation does not calculate interface identifiers. Instead, the interface IDs are hardcoded from their EVM calculations. On the EVM, the interface ID is calculated from the selector's first four bytes of the hash of the function's signature while Cairo selectors are 252 bytes long. Due to this difference, hardcoding EVM's already-calculated interface IDs is the most consistent approach to both follow the EIP165 standard and EVM compatibility.

Further, this implementation stores supported interfaces in a mapping (similar to OpenZeppelin's ERC165Storage).

Ready-to-Use Presets

ERC721 presets have been created to allow for quick deployments as-is. To be as explicit as possible, each preset includes the additional features they offer in the contract name. For example:

  • ERC721_Mintable_Burnable includes mint and burn
  • ERC721_Mintable_Pausable includes mint, pause, and unpause
  • ERC721_Enumerable_Mintable_Burnable includes mint, burn, and IERC721_Enumerable methods

Ready-to-use presets are a great option for testing and prototyping. See Presets.

Extensibility

Following the contracts extensibility pattern, this implementation is set up to include all ERC721 storage and function logic within the ERC721_base.cairo library. Library methods with the prefix ERC721_ must be imported in the smart contract and inserted into an external method with the requisite name. This is already done in the preset contracts; however, additional functionality can be added. For instance, you could:

Just be sure that the exposed external methods invoke their imported function logic a la approve invokes ERC721_approve. As an example, see below.

from contracts.token.ERC721_base import ERC721_approve

@external
func approve{
        pedersen_ptr: HashBuiltin*, 
        syscall_ptr: felt*, 
        range_check_ptr
    }(to: felt, tokenId: Uint256):
    ERC721_approve(to, tokenId)
    return()
end

Presets

The following contract presets are ready to deploy and can be used as-is for quick prototyping and testing. Each preset includes a contract owner, which is set in the constructor, to offer simple access control on sensitive methods such as mint and burn.

ERC721_Mintable_Burnable

The ERC721_Mintable_Burnable preset offers a quick and easy setup for creating NFTs. The contract owner can create tokens with mint, whereas token owners can destroy their tokens with burn.

ERC721_Mintable_Pausable

The ERC721_Mintable_Pausable preset creates a contract with pausable token transfers and minting capabilities. This preset proves useful for scenarios such as preventing trades until the end of an evaluation period and having an emergency switch for freezing all token transfers in the event of a large bug. In this preset, only the contract owner can mint, pause, and unpause.

ERC721_Enumerable_Mintable_Burnable

The ERC721_Enumerable_Mintable_Burnable preset adds enumerability of all the token ids in the contract as well as all token ids owned by each account. This allows contracts to publish its full list of NFTs and make them discoverable.

In regard to implementation, contracts should import the following view methods:

  • ERC721_Enumerable_totalSupply
  • ERC721_Enumerable_tokenByIndex
  • ERC721_Enumerable_tokenOfOwnerByIndex

In order for the tokens to be correctly indexed, the contract should also import the following methods (which supercede some of the ERC721_base methods):

  • ERC721_Enumerable_transferFrom
  • ERC721_Enumerable_safeTransferFrom
  • ERC721_Enumerable_mint
  • ERC721_Enumerable_burn

IERC721_Enumerable

@contract_interface
namespace IERC721_Enumerable:
    func totalSupply() -> (totalSupply: Uint256):
    end

    func tokenByIndex(index: Uint256) -> (tokenId: Uint256):
    end

    func tokenOfOwnerByIndex(owner: felt, index: Uint256) -> (tokenId: Uint256):
    end
end

ERC721_Metadata

The ERC721_Metadata extension allows your smart contract to be interrogated for its name and for details about the assets which your NFTs represent.

We follow OpenZeppelin's Solidity approach of integrating the Metadata methods name, symbol, and tokenURI into all ERC721 implementations. If preferred, a contract can be created that does not import the Metadata methods from the ERC721_base library. Note that the IERC721_Metadata interface id should be removed from the constructor as well.

IERC721_Metadata

@contract_interface
namespace IERC721_Metadata:
    func name() -> (name: felt):
    end

    func symbol() -> (symbol: felt):
    end

    func tokenURI(tokenId: Uint256) -> (tokenURI: felt):
    end
end

Utilities

ERC721_Holder

Implementation of the IERC721Receiver interface.

Accepts all token transfers. Make sure the contract is able to use its token with IERC721.safeTransferFrom, IERC721.approve or IERC721.setApprovalForAll.

Also utilizes the ERC165 method supportsInterface to determine if the contract is an account. See ERC721Received

API Specification

IERC721 API

func balanceOf(owner: felt) -> (balance: Uint256):
end

func ownerOf(tokenId: Uint256) -> (owner: felt):
end

func safeTransferFrom(
        _from: felt, 
        to: felt, 
        tokenId: Uint256, 
        data_len: felt,
        data: felt*
    ):
end

func transferFrom(_from: felt, to: felt, tokenId: Uint256):
    end

func approve(approved: felt, tokenId: Uint256):
end

func setApprovalForAll(operator: felt, approved: felt):
end

func getApproved(tokenId: Uint256) -> (approved: felt):
end

func isApprovedForAll(owner: felt, operator: felt) -> (isApproved: felt):
end

balanceOf

Returns the number of tokens in owner's account.

Parameters:

owner: felt

Returns:

balance: Uint256

ownerOf

Returns the owner of the tokenId token.

Parameters:

tokenId: Uint256

Returns:

owner: felt

safeTransferFrom

Safely transfers tokenId token from _from to to, checking first that contract recipients are aware of the ERC721 protocol to prevent tokens from being forever locked. For information regarding how contracts communicate their awareness of the ERC721 protocol, see ERC721Received.

Parameters:

_from: felt
to: felt
tokenId: Uint256
data_len: felt
data: felt*

Returns:

None.

transferFrom

Transfers tokenId token from _from to to.

Note that this function should be used instead of safeTransferFrom to transfer tokens. Exercise caution as tokens sent to a contract that does not support ERC721 can be lost forever.

Parameters:

_from: felt
to: felt
tokenId: Uint256

Returns:

None.

approve

Gives permission to to to transfer tokenId token to another account. The approval is cleared when the token is transferred.

Parameters:

to: felt
tokenId: Uint256

Returns:

None.

getApproved

Returns the account approved for tokenId token.

Parameters:

tokenId: Uint256

Returns:

operator: felt

setApprovalForAll

Approve or remove operator as an operator for the caller. Operators can call transferFrom or safeTransferFrom for any token owned by the caller.

Parameters:

operator: felt

Returns:

None.

isApprovedForAll

Returns if the operator is allowed to manage all of the assets of owner.

Parameters:

owner: felt
operator: felt

Returns:

isApproved: felt

IERC721_Metadata API

func name() -> (name: felt):
end

func symbol() -> (symbol: felt):
end

func tokenURI(tokenId: Uint256) -> (tokenURI: felt):
end

name

Returns the token collection name.

Parameters:

None.

Returns:

name: felt

symbol

Returns the token collection symbol.

Parameters:

None.

Returns:

symbol: felt

tokenURI

Returns the Uniform Resource Identifier (URI) for tokenID token. If the URI is not set for the tokenId, the return value will be 0.

Parameters:

tokenId: Uint256

Returns:

tokenURI: felt

IERC721_Enumerable API

func totalSupply() -> (totalSupply: Uint256):
end

func tokenByIndex(index: Uint256) -> (tokenId: Uint256):
end

func tokenOfOwnerByIndex(owner: felt, index: Uint256) -> (tokenId: Uint256):
end

totalSupply

Returns the total amount of tokens stored by the contract.

Parameters: None

Returns:

totalSupply: Uint256

tokenByIndex

Returns a token ID owned by owner at a given index of its token list. Use along with balanceOf to enumerate all of owner's tokens.

Parameters:

index: Uint256

Returns:

tokenId: Uint256

tokenOfOwnerByIndex

Returns a token ID at a given index of all the tokens stored by the contract. Use along with totalSupply to enumerate all tokens.

Parameters:

owner: felt
index: Uint256

Returns:

tokenId: Uint256

IERC721_Receiver API

func onERC721Received(
        operator: felt, 
        _from: felt, 
        tokenId: Uint256, 
        data_len: felt
        data: felt*
    ) -> (selector: felt):
end

onERC721Received

Whenever an IERC721 tokenId token is transferred to this non-account contract via safeTransferFrom by operator from _from, this function is called.

Parameters:

operator: felt
_from: felt
tokenId: Uint256
data_len: felt
data: felt*

Returns:

selector: felt

ERC165

The ERC165 standard allows smart contracts to exercise type introspection on other contracts, that is, examining which functions can be called on them. This is usually referred to as a contract’s interface.

Cairo contracts, like Ethereum contracts, have no native concept of an interface, so applications must usually simply trust they are not making an incorrect call. For trusted setups this is a non-issue, but often unknown and untrusted third-party addresses need to be interacted with. There may even not be any direct calls to them! (e.g. ERC20 tokens may be sent to a contract that lacks a way to transfer them out of it, locking them forever). In these cases, a contract declaring its interface can be very helpful in preventing errors.

IERC165

@contract_interface
namespace IERC165:
    func supportsInterface(interfaceId: felt) -> (success: felt):
    end
end

ERC165 API Specification

func supportsInterface(interfaceId: felt) -> (success: felt):
end

supportsInterface

Returns true if this contract implements the interface defined by interfaceId.

Parameters:

interfaceId: felt

Returns:

success: felt