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NFT Standard #62

Open EmelyanenkoK opened 2 years ago

EmelyanenkoK commented 2 years ago

⚠️ WARNING: Standards are now published and discussed in the TEPs repository. This page may be out of date.

Summary

A standard interface for non-fungible tokens.

Motivation

A standard interface will greatly simplify interaction and display of different entities representing right of ownership.

NFT standard describes:

Specification

The NFT collection and each NFT item are separate smart contracts.

Example: if you release a collection that contains 10 000 items, then you will deploy 10 001 smart contracts.

NFT item smart contract

Must implement:

Internal message handlers

1. transfer

Request

TL-B schema of inbound message:

transfer#5fcc3d14 query_id:uint64 new_owner:MsgAddress response_destination:MsgAddress custom_payload:(Maybe ^Cell) forward_amount:(VarUInteger 16) forward_payload:(Either Cell ^Cell) = InternalMsgBody;

query_id - arbitrary request number.

new_owner - address of the new owner of the NFT item.

response_destination - address where to send a response with confirmation of a successful transfer and the rest of the incoming message coins.

custom_payload - optional custom data.

forward_amount - the amount of nanotons to be sent to the new owner.

forward_payload - optional custom data that should be sent to the new owner.

Should be rejected if:

  1. message is not from current owner.

  2. there is no enough coins (with respect to NFT own storage fee guidelines) to process operation and send forward_amount.

  3. After processing the request, the contract must send at least in_msg_value - forward_amount - max_tx_gas_price to the response_destination address.

    If the contract cannot guarantee this, it must immediately stop executing the request and throw error.

    max_tx_gas_price is the price in Toncoins of maximum transaction gas limit of NFT habitat workchain. For the basechain it can be obtained from ConfigParam 21 from gas_limit field.

Otherwise should do:

  1. change current owner of NFT to new_owner address.

  2. if forward_amount > 0 send message to new_owner address with forward_amount nanotons attached and with the following layout:

    TL-B schema: ownership_assigned#05138d91 query_id:uint64 prev_owner:MsgAddress forward_payload:(Either Cell ^Cell) = InternalMsgBody;

    query_id should be equal with request's query_id.

    forward_payload should be equal with request's forward_payload.

    prev_owner is address of the previous owner of this NFT item.

    If forward_amount is equal to zero, notification message should not be sent.

  3. Send all excesses of incoming message coins to response_destination with the following layout:

    TL-B schema: excesses#d53276db query_id:uint64 = InternalMsgBody;

    query_id should be equal with request's query_id.

2 get_static_data

Request

TL-B schema of inbound message:

get_static_data#2fcb26a2 query_id:uint64 = InternalMsgBody;

query_id - arbitrary request number.

should do:

  1. Send back message with the following layout and send-mode 64 (return msg amount except gas fees):

    TL-B schema: report_static_data#8b771735 query_id:uint64 index:uint256 collection:MsgAddress = InternalMsgBody;

    query_id should be equal with request's query_id.

    index - numerical index of this NFT in the collection, usually serial number of deployment.

    collection - address of the smart contract of the collection to which this NFT belongs.

Get-methods

  1. get_nft_data() returns (int init?, int index, slice collection_address, slice owner_address, cell individual_content)

    init? - if not zero, then this NFT is fully initialized and ready for interaction.

    index - numerical index of this NFT in the collection. For collection-less NFT - arbitrary but constant value.

    collection_address - (MsgAddress) address of the smart contract of the collection to which this NFT belongs. For collection-less NFT this parameter should be addr_none;

    owner_address - (MsgAddress) address of the current owner of this NFT.

    individual_content - if NFT has collection - individual NFT content in any format; if NFT has no collection - NFT content in format that complies with standard TIP-64.

NFT Collection smart contract

It is assumed that the smart contract of the collection deploys smart contracts of NFT items of this collection.

Must implement:

Get-methods

  1. get_collection_data() returns (int next_item_index, cell collection_content, slice owner_address)

    next_item_index - the count of currently deployed NFT items in collection. Generally, collection should issue NFT with sequential indexes (see Rationale(2) ). -1 value of next_item_index is used to indicate non-sequential collections, such collections should provide their own way for index generation / item enumeration.

    collection_content - collection content in a format that complies with standard TIP-64.

    owner_address - collection owner address, zero address if no owner.

  2. get_nft_address_by_index(int index) returns slice address

    Gets the serial number of the NFT item of this collection and returns the address (MsgAddress) of this NFT item smart contract.

  3. get_nft_content(int index, cell individual_content) returns cell full_content

    Gets the serial number of the NFT item of this collection and the individual content of this NFT item and returns the full content of the NFT item in format that complies with standard TIP-64.

    As an example, if an NFT item stores a metadata URI in its content, then a collection smart contract can store a domain (e.g. "https://site.org/"), and an NFT item smart contract in its content will store only the individual part of the link (e.g "kind-cobra").

    In this example the get_nft_content method concatenates them and return "https://site.org/kind-cobra".

Implementation example

https://github.com/ton-blockchain/token-contract/tree/main/nft

Rationale

  1. "One NFT - one smart contract" simplifies fees calculation and allows to give gas-consumption guarantees.

  2. NFT collection with sequential NFT index provide easy way of association and search of linked NFTs.

  3. Division of NFT content into individual and common (collection) part allows to deduplicate storage as well as cheap mass update.

Why not a single smart contract with a token_id -> owner_address dictionary?

  1. Unpredictable gas consumption

    In TON, gas consumption for dictionary operations depends on exact set of keys.

    Also, TON is an asynchronous blockchain. This means that if you send a message to a smart contract, then you do not know how many messages from other users will reach the smart contract before your message.

    Thus, you do not know what the size of the dictionary will be at the moment when your message reaches the smart contract.

    This is OK with a simple wallet -> NFT smart contract interaction, but not acceptable with smart contract chains, e.g. wallet -> NFT smart contract -> auction -> NFT smart contract.

    If we cannot predict gas consumption, then a situation may occur like that the owner has changed on the NFT smart contract, but there were no enough Toncoins for the auction operation.

    Using smart contracts without dictionaries gives deterministic gas consumption.

  2. Does not scale (becomes a bottleneck)

    Scaling in TON is based on the concept of sharding, i.e. automatic partitioning of the network into shardchains under load.

    The single big smart contract of the popular NFT contradicts this concept. In this case, many transactions will refer to one single smart contract.

    The TON architecture provides for sharded smart contracts(see whitepaper), but at the moment they are not implemented.

Why are there no "Approvals"?

TON is an asynchronous blockchain, so some synchronous blockchain approaches are not suitable.

You cannot send the message "is there an approval?" because the response may become irrelevant while the response message is getting to you.

If a synchronous blockchain can check alowance and if everything is OK do transferFrom in one transaction, then in an asynchronous blockchain you will always need to send a transferFrom message at random, and in case of an error, catch the response message and perform rollback actions.

This is a complex and inappropriate approach.

Fortunately, all cases that arose during the discussion can be implemented by a regular transfer with notification of the new owner. In some cases, this will require an additional smart contract.

The case when you want to place NFT on several marketplaces at the same time is solved by creating auction smart contracts that first accept payment, and then NFT is sent to one of auction smart contracts.

Why are there no obligatory royalties to the author from all sales?

In the process of developing this idea, we came to the conclusion that it is possible to guarantee royalties to the author from absolutely any sale on the blockchain only in 1 case:

All transfers must be carried out through an open long-term auction, and other types of transfers are prohibited.

If you want to transfer NFT to yourself to another wallet, then you need to start an auction and win it.

Another variation of this scheme is to make all transfers chargeable.

By prohibiting the free transfer of tokens, we make tokens inconvenient in many cases - the user simply updated the wallet, the user wants to donate NFT, the user wants to send NFT to some smart contract.

Given the poor usability and that NFTs are a general concept and not all of them are created for sale - this approach was rejected.

Standard extensions

The functionality of the basic NFT standard can be extended:

TL-B schema

nothing$0 {X:Type} = Maybe X;
just$1 {X:Type} value:X = Maybe X;
left$0 {X:Type} {Y:Type} value:X = Either X Y;
right$1 {X:Type} {Y:Type} value:Y = Either X Y;
var_uint$_ {n:#} len:(#< n) value:(uint (len * 8))
         = VarUInteger n;

addr_none$00 = MsgAddressExt;
addr_extern$01 len:(## 9) external_address:(bits len) 
             = MsgAddressExt;
anycast_info$_ depth:(#<= 30) { depth >= 1 }
   rewrite_pfx:(bits depth) = Anycast;
addr_std$10 anycast:(Maybe Anycast) 
   workchain_id:int8 address:bits256  = MsgAddressInt;
addr_var$11 anycast:(Maybe Anycast) addr_len:(## 9) 
   workchain_id:int32 address:(bits addr_len) = MsgAddressInt;
_ _:MsgAddressInt = MsgAddress;
_ _:MsgAddressExt = MsgAddress;

transfer query_id:uint64 new_owner:MsgAddress response_destination:MsgAddress custom_payload:(Maybe ^Cell)  forward_amount:(VarUInteger 16) forward_payload:(Either Cell ^Cell)  = InternalMsgBody;

ownership_assigned query_id:uint64 prev_owner:MsgAddress forward_payload:(Either Cell ^Cell) = InternalMsgBody;

excesses query_id:uint64 = InternalMsgBody;
get_static_data query_id:uint64 = InternalMsgBody;
report_static_data query_id:uint64 index:uint256 collection:MsgAddress = InternalMsgBody;

Tags were calculated via tlbc as follows (request_flag is equal to 0x7fffffff and response flag is equal to 0x80000000):

crc32('transfer query_id:uint64 new_owner:MsgAddress response_destination:MsgAddress custom_payload:Maybe ^Cell forward_amount:VarUInteger 16 forward_payload:Either Cell ^Cell = InternalMsgBody') = 0x5fcc3d14 & 0x7fffffff = 0x5fcc3d14

crc32('ownership_assigned query_id:uint64 prev_owner:MsgAddress forward_payload:Either Cell ^Cell = InternalMsgBody') = 0x85138d91 & 0x7fffffff = 0x05138d91

crc32('excesses query_id:uint64 = InternalMsgBody') = 0x553276db | 0x80000000 = 0xd53276db

crc32('get_static_data query_id:uint64 = InternalMsgBody') = 0x2fcb26a2 & 0x7fffffff = 0x2fcb26a2

crc32('report_static_data query_id:uint64 index:uint256 collection:MsgAddress = InternalMsgBody') = 0xb771735 | 0x80000000 = 0x8b771735

Changelog

01 Feb 2022 02 Feb 2022 04 Feb 2022 08 Feb 2022 11 Feb 2022 30 Jul 2022

tvorogme commented 2 years ago

Looks like we need function get_owner that send back message with owner (and need to expand NFTEditable with get_editor) so contracts can communicate with each other. (by an example get_static_data)

Also get_static_data, get_owner, get_editor need to have custom payload, which will be send back to contract that request information. (as forward_payload / query_id in transfer)

tolya-yanot commented 2 years ago

Looks like we need function get_owner that send back message with owner (and need to expand NFTEditable with get_editor) so contracts can communicate with each other. (by an example get_static_data)

Also get_static_data, get_owner, get_editor need to have custom payload, which will be send back to contract that request information. (as forward_payload / query_id in transfer)

  1. The blockchain is asynchronous, we cannot make methods for requesting mutable data.

    Because while the answer is coming, this data may already change and the requester will receive incorrect information.

  2. static_data response has query_id

metadiel commented 2 years ago

Potential nft-sale contract deadlock:

1) Owner transfers his NFT to undeployed or dead nft-sale contract (for example: marketplace's canceled the sale just before owner transfers the NFT to the nft-sale contract) 2) Marketplace redeploy nft-sale contract

In that case nft_owner_address of the nft-sale contract will be null, so it will be waiting for message from the NFT, but the NFT will not be able to send message to the nft-sale contract because it's already changed its owner to nft-sale

tvorogme commented 2 years ago

@metadiel look like sale contract is just example in token repo, but it is not standard / smth.

Guess each team need to think how to create sale contract.

We in @disintar created own-fixed version of sale contract :)

metadiel commented 2 years ago

@tvorogme I can't find your contracts in @disintar repos. Are they open-sourced?

mr-tron commented 2 years ago

forward_payload - optional custom data that should be sent to the new owner.

Word "optional" creates problem for understanding by some developers. they forget controlling bit for Either Maybe it should be something like forward_payload - custom data that should be sent to the new owner (can be empty).

EmelyanenkoK commented 2 years ago

Description of get_collection_data() were extended: -1 value of next_item_index is used to indicate non-sequential collections.