aex-141

AEX-141: Non-Fungible Token Standard

AEX: 141
Title: Non-Fungible Token Standard
Author: Arjan van Eersel <[email protected]> (@zkvonsnarkenstein), Marco Walz (@marc0olo), Philipp (@thepiwo), Rogerio (@jyeshe)
License: ISC
Discussions-To: https://forum.aeternity.com/t/aeternity-nft-token-standard/9781
Status: Review
Type: Interface
Created: 2021-09-11

Abstract

A standard implementation of non-fungible tokens for the æternity ecosystem. Initially, the design goal of the primary interface was to be as compatible with ERC-721 as possible, so that anyone who can work with ERC-721 can work with this interface. However, specifically when it comes to dealing with metadata a decision was taken to provide contract developers as much flexibility as possible.

Core differences to the well-known ERC-721 standard:

  • Unsafe transactions are not supported. Therefore, all transactions are ought to be safe

  • Usage of zero-address for minting or burning is avoided. Thus, explicit events for minting and burning have been defined

  • Token transfers do not require the (owner) address to be passed. Only the recipient address needs to be provided to the entrypoint

  • High flexibility when it comes to dealing with metadata is provided

Motivation

The following standard describes standard interfaces for non-fungible tokens. The proposal contains a primary interface and secondary interfaces (extensions) for optional functionality that not everyone might need.

AEX141 NFT

IAEX141

contract interface IAEX141 =
    datatype metadata_type = URL | OBJECT_ID | MAP
    datatype metadata = MetadataIdentifier(string) | MetadataMap(map(string, string))

    record meta_info = 
        { name: string
        , symbol: string 
        , base_url: option(string)
        , metadata_type : metadata_type }

    datatype event 
        = Transfer(address, address, int)
        | Approval(address, address, int, string)
        | ApprovalForAll(address, address, string)

    entrypoint aex141_extensions : () => list(string)

    entrypoint meta_info : () => meta_info

    entrypoint metadata : (int) => option(metadata)

    entrypoint total_supply : () => int

    entrypoint balance : (address) => option(int)

    entrypoint owner : (int) => option(address)
   
    stateful entrypoint transfer : (address, int, option(string)) => unit

    stateful entrypoint transfer_to_contract : (int) => unit

    stateful entrypoint approve : (address, int, bool) => unit

    stateful entrypoint approve_all : (address, bool) => unit

    entrypoint get_approved : (int) => option(address)

    entrypoint is_approved : (int, address) => bool

    entrypoint is_approved_for_all : (address, address) => bool

Methods

aex141_extensions()

Returns a hardcoded list of all implemented extensions on the deployed contract.

entrypoint aex141_extensions() : list(string)

meta_info()

Returns meta information associated with the contract.

Note:

  • The base_url is optional and is only intended to be used if the metadata_type is URL. As known from ERC-721 this can be used to resolve metadata for a specific NFT which can be fetched from an URL based on the token id

  • The metadata_type MUST be defined on contract level and MUST NOT be mixed across various NFTs in a contract

entrypoint meta_info() : meta_info
return
type

meta_info

meta_info

metadata()

Returns metadata associated with an NFT.

Note:

  • The metadata can be set in the constructor, as well as by implementing extensions like e.g. mintable

  • The metadata to use depends on the metadata_type defined on contract level and provides certain flexibility:

    • for URL and OBJECT_ID use MetadataIdentifier

      • URL can represent any URL and typically the NFT id is used to resolve the metadata using that URL, e.g.

        • ipfs:// serving as base_url and pointing to a folder stored on IPFS where immutable metadata is stored (recommended)

        • https:// serving as base_url and pointing to a traditional website where metadata is stored

        • ...

      • OBJECT_ID can be used to refer to any kind of item which typically already exists (e.g. the VIN of a car)

    • for MAP use MetadataMap

      • MAP provides almost unlimited flexibility and allows any kind of metadata to be represented in a map

entrypoint metadata(token_id: int) : option(metadata)
parameter
type

token_id

int

return
type

data

option(metadata)

total_supply()

Returns the total amount of NFTs in circulation.

entrypoint total_supply() : ínt
return
type

total_supply

int

balance()

Returns the number of NFTs owned by the account with address owner in the contract. If the owner address is unknown to the contract, None will be returned. Using option type as a return value allows us to determine if the account owns 0, more than 0, or the account has never owned a balance and is still unknown to the contract.

entrypoint balance(owner: address) : option(int)
parameter
type

owner

address

return
type

balance

option(int)

owner()

Returns the owner's address for the provided token_id if the NFT is minted. If the NFT isn't minted, None will be returned.

entrypoint owner(token_id: int) : option(address)
parameter
type

token_id

int

return
type

owner

option(address)

transfer()

Transfers NFT with ID token_id from the current owner to the to address. Will invoke IAEX141Receiver.on_aex141_received if the to address belongs to a contract. If provided, data will be submitted with the invocation of IAEX141Receiver.on_aex141_received. Emits the Transfer event.

Note: For security reasons reentrancy is not possible. Therefore contracts cannot use this entrypoint to transfer NFTs to itself. Use transfer_to_contract instead to cover this scenario.

Throws if:

  • Call.caller is NOT the current owner or NOT approved to transfer on behalf of the owner;

  • token_id is NOT a valid token;

  • the invocation of IAEX141Receiver.on_aex141_received fails.

stateful entrypoint transfer(to: address, token_id: int, data: option(string)) : unit
parameter
type

token_id

int

data

option(string)

transfer_to_contract()

Transfers NFT with ID token_id from the current owner to the contract calling this entrypoint. As reentrancy is not possible for security reasons, this entrypoint MUST be used if a contract (e.g. NFT marketplace) wants to transfer the NFT to itself on behalf of the owner. Emits the Transfer event.

Throws if:

  • Call.caller is NOT a contract or NOT approved to transfer on behalf of the owner;

  • token_id is NOT a valid token;

stateful entrypoint transfer(to: address, token_id: int, data: option(string)) : unit
parameter
type

to

address

token_id

int

data

option(string)

approve()

Sets the approved address to interact on behalf of an owner for the NFT with ID token_id. If enabled is true the operator address is approved, if false the approval is revoked. Throws unless caller is the current NFT owner, or an authorized operator of the current owner. Emits the Approval event.

stateful entrypoint approve(approved: address, token_id: int, enabled: bool) : unit
parameter
type

approved

address

token_id

int

enabled

bool

approve_all()

Enables or disables approval for an operator address to manage all of the caller's NFTs. If enabled is true, the operator address is approved, if false, the approval is revoked. Emits the ApprovalForAll event.

stateful entrypoint approve_all(operator: address, enabled: bool) : unit
parameter
type

operator

address

enabled

bool

get_approved()

Returns the address approved to interact with the NFT with ID token_id or returns None if no approval has been set. Throws if NFT with ID token_id does not exist.

entrypoint get_approved(token_id: int) : option(address)
parameter
type

token_id

int

return
type

approved

option(address)

is_approved()

Returns true if approved address is approved to transact for NFT with ID token_id.

entrypoint is_approved(token_id: int, approved: address) : bool
parameter
type

token_id

int

approved

address

return
type

approved

bool

is_approved_for_all()

Returns true if operator is approved to commit transactions on behalf of owner.

Indicates whether an address is an authorized operator for another address.

entrypoint is_approved_for_all(owner: address, operator: address) : bool
parameter
type

owner

address

approved

address

return
type

approved

bool

Events

datatype event 
        = Transfer(address, address, int)
        | Approval(address, address, int, string)
        | ApprovalForAll(address, address, string)

Transfer

This event MUST be triggered and emitted when tokens are transferred.

The event arguments should be as follows: (from, to, token_id)

Transfer(address, address, int)
parameter
type

from

address

to

address

token_id

int

Approval

This event MUST be triggered and emitted upon approval, including revocation of approval.

The event arguments should be as follows: (owner, approved, token_id, enabled). Enabled is of type string, because of a limit of 3 on indexed values. Since address, int and bool are automatically indexed, having enabled as bool would cause an error, as it would be the 4th indexed item. Use "true" or "false" as return values instead.

Approval(address, address, int, string)
parameter
type

owner

address

approved

address

token_id

int

enabled

string

ApprovalForAll

This event MUST be triggered and emitted upon a change of operator status, including revocation of approval for all NFTs in the contract.

The event arguments should be as follows: (owner, operator, approved)

For idiomatic reasons approved is, just as with Approval, of type string

ApprovalForAll(address, address, string)
parameter
type

owner

address

operator

address

approved

string

Receiver contract interface

The standard only allows safe transfers of tokens. On transfer a check MUST be performed which checks if the recipient is a contract and if so the transfer MAY ONLY happen if on_aex141_received returns true.

AEX141Receiver

contract interface IAEX141Receiver = 
    entrypoint on_aex141_received : (option(address), int, option(string)) => bool

on_aex141_received()

Deals with receiving NFTs on behalf of a contract. Contracts MUST implement this interface to be able to receive NFTs. Mint and transfer transactions will invoke the on_aex141_received function.

Returns true or false to signal whether processing the received NFT was successful or not.

entrypoint on_aex141_received(from: option(address), token_id: int, data: option(string)) : bool
parameter
type

from

option(address)

token_id

int

data

option(string)

Extensions

This section covers the extendability of the basic token - e.g. mintable, burnable.

When an NFT contract implements an extension its name should be included in the aex141_extensions array, in order for third party software or contracts to know the interface. Any extensions should be implementable without permission. Developers of extensions MUST choose a name for aex141_extensions that is not yet used. Developers CAN make a pull request to the reference implementation for general purpose extensions and maintainers choose to eventually include them.

Extension Mintable ("mintable")

The mintable extension SHOULD be used for generic NFT minting without specific requirements in regards to minting.

Note: If you aim to reuse the same metadata across many NFTs you might prefer the mintable_templates extension.

contract interface IAEX141Mintable =

    datatype event = Mint(address, int)

    stateful entrypoint mint : (address, option(metadata), option(string)) => int

mint()

Issues a new token to the provided address. If the owner is a contract, IAEX141Receiver.on_aex141_received will be called with data if provided.

Emits the Mint event.

Throws if the call to IAEX141Receiver.on_aex141_received implementation failed (safe transfer)

stateful entrypoint mint(owner: address, metadata: option(metadata), data: option(string)) : int
parameter
type

owner

address

metadata

option(metadata)

data

option(string)

return
type

token_id

int

Extension Mintable Limit ("mintable_limit")

The mintable_limit extension SHOULD be used if the amount of NFTs to mint should be limited/capped. It MAY ONLY be used in combination with the mintable extension.

The initially defined token limit MUST be greater than or equal to 1.

Emits the TokenLimit event on contract creation.

contract interface IAEX141MintableLimit =

    datatype event
        = TokenLimit(int)
        | TokenLimitDecrease(int, int)

    entrypoint token_limit : () => int
    stateful entrypoint decrease_token_limit : (int) => unit

token_limit()

Returns the limit / max amount of NFTs that can be minted.

entrypoint token_limit() : ínt
return
type

token_limit

int

decrease_token_limit()

Decreases the NFT limit/cap defined in the collection. An increase of the limit is forbidden.

Emits the TokenLimitDecrease event.

Throws if:

  • new_limit equals the current token_limit

  • new_limit is lower than the current total_supply

stateful entrypoint decrease_token_limit(new_limit: int) : unit
parameter
type

new_limit

int

Extension Burnable ("burnable")

The burnable extension SHOULD be used if NFTs within a contract are intended to be burnable.

contract interface IAEX141Burnable =

    datatype event = Burn(address, int)

    stateful entrypoint burn : (int) => unit

burn()

Burns the NFT with the provided token_id.

Emits the Burn event.

Throws if Call.caller is NOT the current owner or NOT approved to transfer on behalf of the owner.

stateful entrypoint burn(token_id: int) : unit
parameter
type

token_id

int

Extension Mintable Templates ("mintable_templates")

The mintable_templates extension SHOULD be used if multiple NFTs within a contract should share the same metadata. The extension provides the possbility to create templates. Optionally an edition limit for each template can be defined on template creation. If no edition limit is provided, it's considered to be unlimited. The edition limit can be decreased at any point of time as long as the new value does not exceed the current edition supply. Also, templates can be deleted if no NFT has been created using the template.

Note:

  • On contract level the MAP MUST be used as metadata_type

    • the map stores the template_id and edition_serial of each NFT

    • if mutable_attributes extension is used, it also stores the mutable attributes

  • The template_metadata_type can either be T_URL (string, e.g. ipfs:// pointing to a JSON stored on IPFS) or T_MAP (map(string, string))

    • it is defined during contract creation

    • it is applied to ALL templates created with the contract

contract interface IAEX141MintableTemplates =

    datatype template_metadata_type = T_URL | T_MAP

    datatype event 
        = TemplateCreation(int)
        | TemplateDeletion(int)
        | TemplateMint(address, int, int, string)
        | EditionLimit(int, int)
        | EditionLimitDecrease(int, int, int)

    record template =
        { immutable_metadata: metadata
        , edition_limit: option(int)
        , edition_supply: int }

    entrypoint template_metadata_type : () => template_metadata_type
    entrypoint template : (int) => option(template)
    entrypoint template_supply : () => int

    stateful entrypoint create_template : (metadata, option(int)) => int
    stateful entrypoint delete_template : (int) => unit
    stateful entrypoint template_mint : (address, int, option(string)) => int
    stateful entrypoint decrease_edition_limit : (int, int) => unit

template_metadata_type()

Returns the metadata type which is used for templates.

entrypoint template_metadata_type() : template_metadata_type
return
type

template_metadata_type

template_metadata_type

template()

Returns the template for the provided template_id in case it exists, otherwise None.

entrypoint template(template_id: int) : option(template)
return
type

template

option(template)

template_supply()

Returns the total amount of templates that currently exist.

entrypoint template_supply() : ínt
return
type

template_supply

int

create_template()

Creates a new template for specific immutable metadata. The immutable_metadata needs to be MetadataIdentifier in case template_metadata_type is T_URL and MetadataMap for T_MAP. The edition limit defines how many NFTs can be minted based on a specific template. If no edition limit is provided, an unlimited amount of NFTs can be created using the template. The edition limit can be decreased at any time.

Emits the TemplateCreation event.

Note: It's recommended to perform a check if immutable_metadata is considered valid according to individual requirements.

Throws in case the wrong variant for metadata is provided:

  • variant MUST be MetadataIdentifier if template_metadata_type is T_URL

  • variant MUST be MetadataMap if template_metadata_type is T_MAP

stateful entrypoint create_template(immutable_metadata: metadata, edition_limit: option(int)) : int
parameter
type

immutable_metadata

metadata

edition_limit

option(int)

return
type

template_id

int

delete_template()

Deletes the template with the provided id.

Emits the TemplateDeletion event.

Throws if:

  • the provided template_id does not exist

  • an NFT based on this template has already been created

stateful entrypoint delete_template(template_id: int) : unit
parameter
type

template_id

int

template_mint()

Mints a new NFT for the provided template id. If to is a contract, IAEX141Receiver.on_aex141_received will be called with data if provided.

Emits the TemplateMint event.

Throws if:

  • the provided template_id does not exist

  • the mint would exceed the current edition_limit of the template

  • the call to IAEX141Receiver.on_aex141_received implementation failed (safe transfer)

stateful entrypoint template_mint(to: address, template_id: int, data: option(string)) : int
parameter
type

to

address

template_id

int

data

option(string)

return
type

token_id

int

decrease_edition_limit()

Decreases the edition limit of a specific template. An increase of the edition limit of a template is forbidden.

Emits the EditionLimitDecrease event.

Throws if:

  • the provided template_id does not exist

  • the new_limit is equal to or lower than 0

  • the new_limit is equal to or higher than the current edition limit

  • the new_limit is lower than the current edition supply

stateful entrypoint decrease_edition_limit(template_id: int, new_limit: int) : unit
parameter
type

template_id

int

new_limit

int

Extension Mintable Templates Limit ("mintable_templates_limit")

The mintable_templates_limit extension SHOULD be used to introduce a limit/cap for the amount of templates that may be in existence. It MAY ONLY be used in combination with the mintable_templates extension.

contract interface IAEX141MintableTemplatesLimit =

    datatype event 
        = TemplateLimit(int)
        | TemplateLimitDecrease(int, int)

    entrypoint template_limit : () => int

    stateful entrypoint decrease_template_limit : (int) => unit

template_limit()

Returns the limit / max amount of templates that can be created.

entrypoint template_limit() : ínt
return
type

template_limit

int

decrease_template_limit()

Decreases the template limit/cap defined in the contract. An increase of the limit is forbidden.

Emits the TemplateLimitDecrease event.

Throws if:

  • new_limit equals to or is lower than 0

  • new_limit equals the current token_limit

  • new_limit is lower than the current total_supply

stateful entrypoint decrease_template_limit(new_limit: int) : unit
parameter
type

new_limit

int

Extension Mutable Attributes ("mutable_attributes")

The mutable_attributes extension SHOULD be used if NFTs in the contract should store attributes which can change over time. This can e.g. be beneficial for game assets where users could level up their characters. The mutable attributes are expected to be provided in a JSON string.

contract interface IAEX141MutableAttributes =

    datatype event = MutableAttributesUpdate(int, string)

    stateful entrypoint update_mutable_attributes : (int, string) => unit

update_mutable_attributes()

Updates the JSON string that contains mutable attributes of the NFT.

Emits the MutableAttributesUpdate event.

Throws if the provided token_id does not exist.

stateful entrypoint update_mutable_attributes(token_id: int, mutable_attributes: string) : unit
parameter
type

token_id

int

mutable_attributes

string

Extension Events

Mint

This event is defined by the mintable extension and MUST be triggered whenever a new token is minted.

The event arguments should be as follows: (to, token_id)

Mint(address, int)
parameter
type

to

address

token_id

int

TokenLimit

This event is defined by the mintable_limit extension and MUST be triggered in the init entrypoint during contract creation.

The event arguments should be as follows: (limit)

TokenLimit(int)
parameter
type

limit

int

TokenLimitDecrease

This event is defined by the mintable_limit extension and MUST be triggered whenever the decrease_token_limit entrypoint is called.

The event arguments should be as follows: (old_limit, new_limit)

TokenLimitDecrease(int, int)
parameter
type

old_limit

int

new_limit

int

Burn

This event is defined by the burn extension and MUST be triggered whenever an NFT is burned.

The event arguments should be as follows: (owner, token_id)

Burn(address, int)
parameter
type

owner

address

token_id

int

TemplateCreation

This event is defined by the mintable_templates extension and MUST be triggered whenever a new template is created.

The event arguments should be as follows: (template_id)

TemplateCreation(int)
parameter
type

template_id

int

TemplateDeletion

This event is defined by the mintable_templates extension and MUST be triggered whenever a template is deleted.

The event arguments should be as follows: (template_id)

parameter
type

template_id

int

TemplateMint

This event is defined by the mintable_templates extension and MUST be triggered whenever a new NFT is minted.

The event arguments should be as follows: (to, template_id, token_id, edition_serial). Sophia does not allow 4 "indexed" values as of writing the standard. For this reason edition_serial defined as type string.

The event arguments should be as follows: (to, template_id, token_id, edition_serial)

TemplateMint(address, int, int, string)
parameter
type

to

int

template_id

int

token_id

int

edition_serial

string

EditionLimit

This event is defined by the mintable_templates extension and MUST be triggered whenever a new template is created which specifies an edition limit.

The event arguments should be as follows: (template_id, edition_limit)

EditionLimit(int, int)
parameter
type

template_id

int

edition_limit

int

EditionLimitDecrease

This event is defined by the mintable_templates extension and MUST be triggered whenever the decrease_edition_limit entrypoint is called.

The event arguments should be as follows: (template_id, old_limit, new_limit)

EditionLimitDecrease(int, int, int)
parameter
type

template_id

int

old_limit

int

new_limit

int

TemplateLimit

This event is defined by the mintable_templates_limit extension and MUST be triggered in the init entrypoint during contract creation.

The event arguments should be as follows: (limit)

TemplateLimit(int)
parameter
type

limit

int

TemplateLimitDecrease

This event is defined by the mintable_templates_limit extension and MUST be triggered whenever the decrease_template_limit entrypoint is called.

The event arguments should be as follows: (old_limit, new_limit)

TemplateLimitDecrease(int, int)
parameter
type

old_limit

int

new_limit

int

MutableAttributesUpdate

This event is defined by the mutable_attributes extension and MUST be triggered whenever the mutable attributes of an NFT are updated.

The event arguments should be as follows: (token_id, mutable_attributes)

MutableAttributesUpdate(token_id, string)
parameter
type

token_id

int

mutable_attributes

string

Implementation

There are currently following reference implementations available which follows defined standard:

Additionally there exists following showcase for a simple NFT marketplace using AEX-141:

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