#blockchain #edsl #ink #wasm

no-std app cargo-contract

Setup and deployment tool for developing Wasm based smart contracts via ink!

66 releases (27 stable)

new 5.0.1 Nov 28, 2024
5.0.0-alpha Sep 30, 2024
4.1.3 Nov 20, 2024
4.1.1 Apr 17, 2024
0.1.1 Apr 24, 2019

#566 in Magic Beans

Download history 189/week @ 2024-08-08 58/week @ 2024-08-15 95/week @ 2024-08-22 209/week @ 2024-08-29 119/week @ 2024-09-05 77/week @ 2024-09-12 124/week @ 2024-09-19 284/week @ 2024-09-26 113/week @ 2024-10-03 241/week @ 2024-10-10 155/week @ 2024-10-17 76/week @ 2024-10-24 135/week @ 2024-10-31 105/week @ 2024-11-07 141/week @ 2024-11-14 300/week @ 2024-11-21

689 downloads per month

GPL-3.0 license

765KB
17K SLoC

cargo-contract

CI Status Latest Release stack-exchange

squink, the ink! mascotcargo-contract is a CLI tool which helps you develop smart contracts for Polkadot's ink!.
ink! is a Rust eDSL which allows you to write smart contracts for blockchains built on the Substrate framework.


Guided Tutorial for Beginners  •   ink! Documentation Portal


More relevant links:

  • Find answers to your questions by joining our Stack Exchange community
  • ink! ‒ The main ink! repository with smart contract examples
  • Contracts UI ‒ Frontend for contract deployment and interaction
  • Substrate Contracts Node ‒ Simple Substrate blockchain which includes smart contract functionality

Installation

In addition to Rust, installation requires a C++ compiler that supports C++17. Modern releases of gcc and clang, as well as Visual Studio 2019+ should work.

  • Step 1: rustup component add rust-src.

  • Step 2: cargo install --force --locked cargo-contract.

  • Step 3: Install dependencies for linting.

    • (MacOS) brew install openssl
    • export TOOLCHAIN_VERSION=nightly-2024-09-05
      rustup install $TOOLCHAIN_VERSION
      rustup component add rust-src --toolchain $TOOLCHAIN_VERSION
      rustup run $TOOLCHAIN_VERSION cargo install cargo-dylint dylint-link
      
  • Step 4: (Optional) Install Docker Engine to be able to produce verifiable builds.

You can always update the cargo-contract binary to the latest version by running the Step 2.

Installation using Docker Image

If you prefer to use Docker instead, Parity has a Docker image available on the Docker Hub:

# Pull the latest stable image.
docker pull paritytech/contracts-ci-linux

# Create a new contract in your current directory.
docker run --rm -it -v $(pwd):/sources paritytech/contracts-ci-linux \
  cargo contract new --target-dir /sources my_contract

# Build the contract. This will create the contract file under
# `my_contract/target/ink/my_contract.contract`.
docker run --rm -it -v $(pwd):/sources paritytech/contracts-ci-linux \
  cargo contract build --manifest-path=/sources/my_contract/Cargo.toml

Windows: If you use PowerShell, change $(pwd) to ${pwd}.

# Create a new contract in your current directory (in Windows PowerShell).
docker run --rm -it -v ${pwd}:/sources paritytech/contracts-ci-linux \
  cargo contract new --target-dir /sources my_contract

Verifiable builds

Some block explorers require the Wasm binary to be compiled in the deterministic environment. To achieve it, you should build your contract using Docker image we provide:

cargo contract build --verifiable

You can find more detailed documentation how to use the image here.

Usage

You can always use cargo contract help to print information on available commands and their usage.

For each command there is also a --help flag with info on additional parameters, e.g. cargo contract new --help.

cargo contract new my_contract

Create an initial smart contract with some scaffolding code into a new folder my_contract .

The contract contains the source code for the Flipper contract, which is about the simplest "smart" contract you can build ‒ a bool which gets flipped from true to false through the flip() function.

cargo contract build

Compile the contract into optimized WebAssembly bytecode, generate metadata for it, and bundle both together in a <name>.contract file, which you can use for deploying the contract on-chain.

cargo contract check

Check that the code builds as WebAssembly. This command does not output any <name>.contract artifact to the target/ directory.

cargo contract upload

Upload a contract to a pallet-contracts enabled chain. See extrinsics.

cargo contract instantiate

Create an instance of a contract on chain. See extrinsics.

cargo contract call

Invoke a message on an existing contract on chain. See extrinsics.

cargo contract encode

Encodes a contract's input calls and their arguments

cargo contract decode

Decode a contract's input or output data.

This can be either an event, an invocation of a contract message, or an invocation of a contract constructor.

The argument has to be given as hex-encoding, starting with 0x.

cargo contract remove

Remove a contract from a pallet-contracts enabled chain. See extrinsics.

cargo contract info

Fetch and display contract information of a contract on chain. See info.

cargo contract verify

Verify that a given contract binary matches the build result of the specified workspace

cargo contract schema-generate

Generate schema and print it to STDOUT.

cargo contract verify-schema

Verify a metadata file or a contract bundle containing metadata against the schema file.

cargo contract storage

Fetch and display the storage of a contract on chain.

cargo contract rpc

Invoke an RPC call to the node. See rpc.

Compatibility

Metadata Version: This project only supports metadata versions starting from V14 and onwards.

Publishing

In order to publish a new version of cargo-contract:

  • Bump all crate versions, we move them in lockstep.
  • Execute cargo update to update Cargo.lock.
  • Make sure your PR is approved by one or more core developers.
  • Publish metadataanalyzetranscodebuildextrinsicscargo-contract.
  • Merge you PR and push a tag vX.X with your version number: git tag -s vX.X.X && git push origin vX.X.X.
  • Create a GitHub release with the changelog entries.

License

The entire code within this repository is licensed under the GPLv3.

Dependencies

~138MB
~2.5M SLoC