ethcontract-rs
Crate used for generating code for Ethereum smart contracts. It provides a function procedural macro that generates safe bindings for contract interaction based on the contract ABI.
Add a dependency to the ethcontract
crate in your Cargo.toml
:
[dependencies]
ethcontract = "..."
Then generate a struct for interacting with the smart contract with a type-safe API:
ethcontract::contract!("path/to/truffle/build/contract/Contract.json");
This will generate a new struct ContractName
with contract generated methods
for interacting with contract functions in a type-safe way.
The minimum supported Rust version is 1.64.0
As an alternative to the procedural macro, a generator API is provided for
generating contract bindings from build.rs
scripts. More information can be
found in the ethcontract-generate
README.
In order to run local examples you will additionally need:
For all examples, the smart contracts must first be built:
cd examples/truffle
yarn && yarn build
Truffle examples rely on the local truffle development server. In a separate terminal run:
cd examples/truffle
yarn start
The abi
example deploys a simple contract and performs various eth_call
s
to illustrate how Solidity types are mapped to Rust types by ethcontract
.
cargo run --example abi
The async
example deploys an ERC20 token and interacts with the contract
with various accounts.
cargo run --example async
The deployments
example illustrates how the deployments
parameter can be
specified when generating a contract with the ethcontract::contract!
macro.
This can be useful for specifying addresses in testing environments that are
deterministic but either not included, or inaccurate in the artifact's
networks
property (when for example the contract is developed upstream, but
a separate testnet deployment wants to be used).
cargo run --example deployments
The events
example illustrates how to listen to logs emitted by smart
contract events.
cargo run --example events
build.rs
script):The generator
example (actually a separate crate to be able to have a build
script) demonstrates how the generator API can be used for creating type-safe
bindings to a smart contract with a build.rs
build script.
cargo run --package examples-generate
The linked
example deploys a library and a contract that links to it then
makes a method call.
cargo run --example linked
The bytecode
example deploys a contract and verifies its bytecode matches the
expected value from the contract artifact.
cargo run --example bytecode
There is a provided example that runs with Rinkeby and Infura. Running this example is a little more involved to run because it requires a private key with funds on Rinkeby (for gas) as well as an Infura project ID in order to connect to a node. Parameters are provided to the Rinkeby example by environment variables:
export PK="private key"
export INFURA_PROJECT_ID="Infura project ID"
cargo run --example rinkeby
This example generates contract bindings from online sources:
It also queries some contract state with Infura. Running this example requires an Infura project ID in order to connect to a node. Parameters are provided to the example by environment variables:
export INFURA_PROJECT_ID="Infura project ID"
cargo run --example sources
This example retrieves the entire event history of token OWL contract and prints the total number of events since deployment.
Note the special handling of the tokenOWLProxy
contract and how it is cast into
a tokenOWL
instance using Contract's with_deployment_info
feature.
export INFURA_PROJECT_ID="Infura project ID"
cargo run --example past_events
You can view example generated contract documentation by fist building the contracts and then generating documentation for the crate:
(cd examples/truffle; yarn && yarn build)
cargo doc --package examples-documentation --no-deps --open
This will open a browser at the documentation root.