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All-in-one Rust-based CosmWasm testing, scripting, and deployment tool.

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cw-orchestrator

docs.rs Crates.io Codecov

A Rust tool for interacting with CosmWasm smart contracts. It provides a type-safe interface to CosmWasm contracts and allows you to easily interact with them. It does this by providing a set of macros that generate type-safe interfaces to your contracts. You can then combine your contract interfaces into a single object that can be shared with others to ease integration efforts and encourage collaboration.

The documentation here gives you a brief overview of the functionality that cw-orchestrator provides. We provide more documentation at orchestrator.abstract.money.

Versions >= 0.25.0 are compatible with CosmWasm 2.x. For more information on migrating from CosmWasm 1.x to 2.x, see the MIGRATING.md file.

How it works

Interacting with a CosmWasm contract involves calling the contract's endpoints using the appropriate message for that endpoint (ExecuteMsg,InstantiateMsg, QueryMsg, MigrateMsg, etc.). cw-orchestrator generates typed interfaces for your contracts, allowing them to be type-checked at compile time. This generic interface then allows you to write environment-generic code, meaning that you can re-use the code that you write to deploy your application to cw-multi-test when deploying to test/mainnet.

Maintained Interfaces

We maintain a small set of interfaces ourselves that we use in our own projects. These interfaces are maintained by the Abstract team and are a good reference for how to use the library.

Codebase Latest Version
cw-plus Crates.io
abstract Crates.io

Creating an Interface

In order to generate a typed interface to your contract you can pass the contract's message types into the cw_orch::interface macro.

The interface Macro

Provide your messages to a new struct that's named after your contract.

use cw_orch::interface;
use cw20_base::msg::{InstantiateMsg, ExecuteMsg, QueryMsg, MigrateMsg};

// Provide the messages in the order Init, Exec, Query, Migrate.
#[interface(InstantiateMsg, ExecuteMsg, QueryMsg, MigrateMsg)]
pub struct Cw20;

The macro will generate a new function that takes the contract name and the chain that you want to interact with. You can then use this interface to interact with the contract.

Usage

You can use this interface to deploy and interact with the contract:

use cw_orch::interface;
use cw_orch::prelude::*;
use cw20::{Cw20Coin, BalanceResponse};

// Implement the Uploadable trait so it can be uploaded to the mock. 
impl <Chain> Uploadable for Cw20<Chain> {
    fn wrapper() -> Box<dyn MockContract<Empty>> {
        Box::new(
            ContractWrapper::new_with_empty(
                cw20_base::contract::execute,
                cw20_base::contract::instantiate,
                cw20_base::contract::query,
            )
            .with_migrate(cw20_base::contract::migrate),
        )
    }
}


fn example_test() {
  let sender = Addr::unchecked("sender");
  // Create a new mock chain (backed by cw-multi-test)
  let chain = Mock::new(&sender);
  
  // Create a new Cw20 interface
  let cw20_base: Cw20<Mock> = Cw20::new("my_token", chain);
  
  // Upload the contract
  cw20_base.upload().unwrap();

  // Instantiate a CW20 token
  let cw20_init_msg = InstantiateMsg {
      decimals: 6,
      name: "Test Token".to_string(),
      initial_balances: vec![Cw20Coin {
          address: sender.to_string(),
          amount: 10u128.into(),
      }],
      marketing: None,
      mint: None,
      symbol: "TEST".to_string(),
  };
  cw20_base.instantiate(&cw20_init_msg, None, None).unwrap();

  // Query the balance
  let balance: BalanceResponse = cw20_base.query(&QueryMsg::Balance { address: sender.to_string() }).unwrap();

  assert_eq!(balance.balance.u128(), 10u128);
}

Features

cw-orchestrator provides two additional macros that can be used to improve the scripting experience.

ExecuteFns

The ExecuteFns macro can be added to the ExecuteMsg definition of your contract. It will generate a trait that allows you to call the variants of the message directly without the need to construct the struct yourself.

The ExecuteFns macro will only be applied on the Msg when compiled for non-wasm target.

use cw_orch::prelude::*;

#[cosmwasm_schema::cw_serde]
#[derive(cw_orch::ExecuteFns)]
pub enum ExecuteMsg {
    Freeze {},
    UpdateAdmins { admins: Vec<String> },
    /// the `payable` attribute can be used to add a `coins` argument to the generated function.
    #[cw_orch(payable)]
    Deposit {}
}

The generated functions can then be used for any interface that uses this ExecuteMsg.

// Define the interface, which is generic over the CosmWasm environment (Chain)
#[cw_orch::interface(Empty,ExecuteMsg,Empty,Empty)]
struct Cw1<Chain>;

impl<Chain> Cw1<Chain> {
    pub fn test_macro(&self) {
        // Enjoy the nice API! 
        self.freeze().unwrap();
        self.update_admins(vec!["new_admin".to_string()]).unwrap();
        self.deposit(&[Coin::new(13,"juno")]).unwrap();
    }
}

QueryFns

The QueryFns derive macro works in the same way as the ExecuteFns macro but it also uses the #[returns(QueryResponse)] attribute from cosmwasm-schema to generate the queries with the correct response types.

Nested types

For nested messages (execute and query), you just need to derive ExecuteFns or QueryFns on the underlying structures. In general, every structure that implements the Into trait for the contract message will make the function available on the contract. To make that clearer, her's an example:

use cw_orch::interface;
use cw_orch::prelude::*;

// An execute message that is generic.
#[cosmwasm_schema::cw_serde]
pub enum GenericExecuteMsg<T> {
    Generic(T),
}

// A type that will fill the generic.
#[cosmwasm_schema::cw_serde]
#[derive(cw_orch::ExecuteFns)]
pub enum Foo {
    Bar { a: String },
}


// Now we construct the concrete type with `Foo` in place of the generic.
type ExecuteMsg = GenericExecuteMsg<Foo>;
// And we implement the `From` trait (which auto-implements `Into`).
impl From<Foo> for ExecuteMsg {
    fn from(msg: Foo) -> Self {
        ExecuteMsg::Generic(msg)
    }
}

#[interface(Empty, ExecuteMsg, Empty, Empty)]
struct Example<Chain>;

impl<Chain: CwEnv> Example<Chain> {
    pub fn test_macro(&self) {
        // Function `bar` is available because `Foo` implements `Into<GenericExecuteMsg<Foo>>`
        self.bar("hello".to_string()).unwrap();
    }
}

WASM flagging

Cw-orch cannot be used inside smart contracts. In order to prevent you from having to add feature flags inside your smart-contract, the library excludes itself when building for the WASM target architecture. If you see errors during the build process like shown below, you will want to target-flag the related code:

error[E0432]: unresolved import `cw_orch::prelude`
 --> contracts/counter/src/interface.rs:4:26
  |
4 | use cw_orch::{interface, prelude::*};
  |                          ^^^^^^^ could not find `prelude` in `cw_orch`

error[E0432]: unresolved import `cw_orch::anyhow`
  --> contracts/counter/src/interface.rs:38:14
   |
38 | use cw_orch::anyhow::Result;
   |              ^^^^^^ could not find `anyhow` in `cw_orch`

error: cannot find macro `artifacts_dir_from_workspace` in this scope
  --> contracts/counter/src/interface.rs:19:9
   |
19 |         artifacts_dir_from_workspace!()
   |         ^^^^^^^^^^^^^^^^^^^^^^^^^^^^

error[E0405]: cannot find trait `Uploadable` in this scope
  --> contracts/counter/src/interface.rs:16:13
   |
16 | impl<Chain> Uploadable for CounterContract<Chain> {
   |             ^^^^^^^^^^ not found in this scope

Just add the #[cfg(not(target_arch = "wasm32"))] to not include the code inside wasm builds:

#[cfg(not(target_arch = "wasm32"))]
mod interface;

Supported chains

Cw-orchestrator supports the following chains natively: πŸŸ₯ LocalNet, 🟦 Testnet, 🟩 Mainnet

  • Archway 🟦🟩
  • Cosmos Hub 🟩
  • Injective 🟦🟩
  • Juno πŸŸ₯🟦🟩
  • Kujira 🟦
  • Migaloo πŸŸ₯🟦🟩
  • Neutron 🟦🟩
  • Nibiru 🟦
  • Osmosis πŸŸ₯🟦🟩
  • Sei πŸŸ₯🟦🟩
  • Terra πŸŸ₯🟦🟩
  • Rollkit πŸŸ₯🟦
  • Xion 🟦
  • Landslide πŸŸ₯

Additional chains can easily be integrated by creating a new ChainInfo structure. This can be done in your script directly. If you have additional time, don't hesitate to open a PR on this repository.

Testing with OsmosisTestTube

OsmosisTestTube is available for testing in cw-orchestrator. In order to use it, you may need to install clang and go to compile the osmosis blockchain that serves as the backend for this env. This compilation is taken care of by cargo directly but if you don't have the right dependencies installed, weird errors may arise.

Installation

Cw-orch relies on external tools to work properly. Visit the INSTALL.md file for a list of dependencies and install commands that are needed for cw-orch to work properly on your machine.

Contributing

We'd really appreciate your help! Please read our contributing guidelines to get started.

Documentation

The documentation is generated using mdbook. Edit the files in the docs/src folder and run

just serve-docs

to view the changes.

Release Docs Dev Docs

Testing

To test the full application you can run the following command:

cargo test --jobs 1 --all-features

References

Enjoy scripting your smart contracts with ease? Build your contracts with ease by using Abstract.

Disclaimer

This software is provided as-is without any guarantees.

Credits

cw-orchestrator is inspired by terra-rust-api and uses cosmos-rust for protocol buffer gRPC communication.

License

This software is licensed under LGPL-3.0. For more information, see the LICENSE file.

Versions of this software on and before commit cbab5f51b9e0b4ddec88906e263e4290e5b2dedf, corresponding to version v0.25.0, are licensed under GPL-3.0. For more information, see the LICENSE file.