The NFT Pallet is the core of NFT functionality. Like ERC-721 standard in Ethereum ecosystem, this pallet provides the basement for creating collections of unique non-divisible things, also called Non Fungible Tokens (NFTs), minting NFT of a given Collection, and managing their ownership.
The pallet also enables storing NFT properties. Though (according to ERC-721) NFT properties belong to logic of a concrete application that operates a Collection, so purposefully the NFT Tracking Module does not have any knowledge about properties except their byte size leaving application logic out to be controlled by Smart Contracts.
The NFT Chain also provides:
Wider NFT Ecosystem (most of it was developed during Hackusama): * SubstraPunks Game hosted on IPFS * NFT Wallet and UI * NFT Asset for Unity Framework
Please see our walk-thorugh instructions to try everything out!
During the Kusama Hackaphon the following changes were made: * Enabled Smart Contracts Pallet * Enabled integration between Smart Contracts and NFT Pallet (required special edition of RC4 Substrate version) * Fixed misc. bugs in NFT Pallet * Deployed NFT TestNet. Public node available at wss://unique.usetech.com, custom UI types - see below in this README. * New Features: * Re-Fungible Token Mode * Off-Chain Schema to store token image URLs * Alternative economic model * White Lists and Public Mint Permission * Use example: SubstraPunks Game, fully hosted on IPFS and NFT Testnet Blockchain.
If you are building an application that operates NFT tokens, use this document.
Building NFT chain requires special versions of Rust and toolchain. We don't use the most recent versions of everything so that we can keep the builds stable.
curl https://sh.rustup.rs -sSf | sh
sudo apt-get install libssl-dev pkg-config libclang-dev clang
Remove all installed toolchains with rustup toolchain list and rustup toolchain uninstall <toolchain>.
Install Rust Toolchain 1.44.0:
rustup install 1.44.0
rustup toolchain list first)rustup toolchain list
rustup default 1.44.0-x86_64-unknown-linux-gnu
rustup toolchain install nightly-2020-05-01
rustup target add wasm32-unknown-unknown --toolchain nightly-2020-05-01-x86_64-unknown-linux-gnu
cargo build
You can start a development chain with:
cargo run -- --dev
Detailed logs may be shown by running the node with the following environment variables set: RUST_LOG=debug RUST_BACKTRACE=1 cargo run -- --dev.
If you want to see the multi-node consensus algorithm in action locally, then you can create a local testnet with two validator nodes for Alice and Bob, who are the initial authorities of the genesis chain that have been endowed with testnet units. Give each node a name and expose them so they are listed on the Polkadot telemetry site. You'll need two terminal windows open.
We'll start Alice's substrate node first on default TCP port 30333 with her chain database stored locally at /tmp/alice. The bootnode ID of her node is QmQZ8TjTqeDj3ciwr93EJ95hxfDsb9pEYDizUAbWpigtQN, which is generated from the --node-key value that we specify below:
cargo run -- \
--base-path /tmp/alice \
--chain=local \
--alice \
--node-key 0000000000000000000000000000000000000000000000000000000000000001 \
--telemetry-url ws://telemetry.polkadot.io:1024 \
--validator
In the second terminal, we'll start Bob's substrate node on a different TCP port of 30334, and with his chain database stored locally at /tmp/bob. We'll specify a value for the --bootnodes option that will connect his node to Alice's bootnode ID on TCP port 30333:
cargo run -- \
--base-path /tmp/bob \
--bootnodes /ip4/127.0.0.1/tcp/30333/p2p/QmQZ8TjTqeDj3ciwr93EJ95hxfDsb9pEYDizUAbWpigtQN \
--chain=local \
--bob \
--port 30334 \
--telemetry-url ws://telemetry.polkadot.io:1024 \
--validator
Additional CLI usage options are available and may be shown by running cargo run -- --help.
{
"Schedule": {
"version": "u32",
"put_code_per_byte_cost": "Gas",
"grow_mem_cost": "Gas",
"regular_op_cost": "Gas",
"return_data_per_byte_cost": "Gas",
"event_data_per_byte_cost": "Gas",
"event_per_topic_cost": "Gas",
"event_base_cost": "Gas",
"call_base_cost": "Gas",
"instantiate_base_cost": "Gas",
"dispatch_base_cost": "Gas",
"sandbox_data_read_cost": "Gas",
"sandbox_data_write_cost": "Gas",
"transfer_cost": "Gas",
"instantiate_cost": "Gas",
"max_event_topics": "u32",
"max_stack_height": "u32",
"max_memory_pages": "u32",
"max_table_size": "u32",
"enable_println": "bool",
"max_subject_len": "u32"
},
"CollectionMode": {
"_enum": {
"Invalid": null,
"NFT": "u32",
"Fungible": "u32",
"ReFungible": "(u32, u32)"
}
},
"Ownership": {
"Owner": "AccountId",
"Fraction": "u128"
},
"FungibleItemType": {
"Collection": "u64",
"Owner": "AccountId",
"Value": "u128"
},
"ReFungibleItemType": {
"Collection": "u64",
"Owner": "Vec<Ownership>",
"Data": "Vec<u8>"
},
"NftItemType": {
"Collection": "u64",
"Owner": "AccountId",
"Data": "Vec<u8>"
},
"Ownership": {
"owner": "AccountId",
"fraction": "u128"
},
"ReFungibleItemType": {
"Collection": "u64",
"Owner": "Vec<Ownership<AccountId>>",
"Data": "Vec<u8>"
},
"CollectionType": {
"Owner": "AccountId",
"Mode": "CollectionMode",
"Access": "u8",
"DecimalPoints": "u32",
"Name": "Vec<u16>",
"Description": "Vec<u16>",
"TokenPrefix": "Vec<u8>",
"CustomDataSize": "u32",
"OffchainSchema": "Vec<u8>",
"Sponsor": "AccountId",
"UnconfirmedSponsor": "AccountId"
},
"RawData": "Vec<u8>",
"Address": "AccountId",
"LookupSource": "AccountId",
"Weight": "u64"
}
$ claude mcp add unique-chain \
-- python -m otcore.mcp_server <graph>