cw721-base-terra

Crates.iocw721-base-terra
lib.rscw721-base-terra
version0.9.3
sourcesrc
created_at2022-05-04 13:57:34.636643
updated_at2022-05-05 05:38:30.136584
descriptionBasic implementation cw721 NFTs for terra
homepagehttps://github.com/arlicle/cw721-base-terra
repositoryhttps://github.com/arlicle/cw721-base-terra
max_upload_size
id580425
size127,996
叫兽 (arlicle)

documentation

https://github.com/arlicle/cw721-base-terra

README

Terra Cw721 Basic

This is a basic implementation of a cw721 NFT contract. It implements the CW721 spec and is designed to be deployed as is, or imported into other contracts to easily build cw721-compatible NFTs with custom logic.

Implements:

  • CW721 Base
  • Metadata extension
  • Enumerable extension (AllTokens done, but not Tokens - requires #81)

Implementation

The ExecuteMsg and QueryMsg implementations follow the CW721 spec and are described there. Beyond that, we make a few additions:

  • InstantiateMsg takes name and symbol (for metadata), as well as a Minter address. This is a special address that has full power to mint new NFTs (but not modify existing ones)
  • ExecuteMsg::Mint{token_id, owner, token_uri} - creates a new token with given owner and (optional) metadata. It can only be called by the Minter set in instantiate.
  • QueryMsg::Minter{} - returns the minter address for this contract.

It requires all tokens to have defined metadata in the standard format (with no extensions). For generic NFTs this may often be enough.

The Minter can either be an external actor (eg. web server, using PubKey) or another contract. If you just want to customize the minting behavior but not other functionality, you could extend this contract (importing code and wiring it together) or just create a custom contract as the owner and use that contract to Mint.

If provided, it is expected that the token_uri points to a JSON file following the ERC721 Metadata JSON Schema.

Running this contract

You will need Rust 1.44.1+ with wasm32-unknown-unknown target installed.

You can run unit tests on this via:

cargo test

Once you are happy with the content, you can compile it to wasm via:

RUSTFLAGS='-C link-arg=-s' cargo wasm
cp ../../target/wasm32-unknown-unknown/release/cw20_base.wasm .
ls -l cw20_base.wasm
sha256sum cw20_base.wasm

Or for a production-ready (optimized) build, run a build command in the the repository root: https://github.com/CosmWasm/cw-plus#compiling.

Importing this contract

You can also import much of the logic of this contract to build another CW721-compliant contract, such as tradable names, crypto kitties, or tokenized real estate.

Basically, you just need to write your handle function and import cw721_base::contract::handle_transfer, etc and dispatch to them. This allows you to use custom ExecuteMsg and QueryMsg with your additional calls, but then use the underlying implementation for the standard cw721 messages you want to support. The same with QueryMsg. You will most likely want to write a custom, domain-specific instantiate.

TODO: add example when written

For now, you can look at cw20-staking for an example of how to "inherit" cw20 functionality and combine it with custom logic. The process is similar for cw721.

Commit count: 0

cargo fmt