Skip to main content
Version: 0.6.0

Flipper Internals

In this article, we take a deep dive into the code shown in the Flipper example, where we will explain in more detail all the Odra-specific sections of the code.

flipper.rs
use odra::Variable;

Pretty straightforward. Odra wraps the code of the specific blockchains SDKs into its own implementation that can be reused between targets. In the above case, we're importing Variable, which is responsible for storing simple values on the blockchain's storage.

Struct

flipper.rs
/// A module definition. Each module struct consists of Variables and Mappings
/// or/and other modules.
#[odra::module]
pub struct Flipper {
/// The module itself does not store the value,
/// it's a proxy that writes/reads value to/from the host.
value: Variable<bool>,
}

In Odra, all contracts are also modules, which can be reused between contracts. That's why we need to mark the struct with the #[odra::module] macro. In the struct definition itself, we state all the fields of the contract. Those fields can be regular Rust data types, however - those will not be persisted on the blockchain. They can also be Odra modules - defined in your project or coming from Odra itself. Finally, to make the data persistent on the blockchain, you can use something like Variable<T> showed above. To learn more about storage interaction, take a look at the next article.

Impl

flipper.rs
/// Module implementation.
///
/// To generate entrypoints,
/// an implementation block must be marked as #[odra::module].
#[odra::module]
impl Flipper {
/// Odra constructor.
///
/// Initializes the contract with the value of value.
#[odra(init)]
pub fn initial_settings(&mut self) {
self.value.set(false);
}
...

Similarly to the struct, we mark the impl section with the #[odra::module] macro. Odra will take all pub functions from this section and create contract endpoints from them. So, if you wish to have functions that are not available for calling outside the contract, do not make them public. Alternatively, you can create a separate impl section without the macro - all functions defined there, even marked with pub will be not callable.

The #[odra(init)] macro marks the constructor of the contract. This function will be limited to only to a single call, all further calls to it will result in an error.

flipper.rs
    ...
/// Replaces the current value with the passed argument.
pub fn set(&mut self, value: bool) {
self.value.set(value);
}

/// Replaces the current value with the opposite value.
pub fn flip(&mut self) {
self.value.set(!self.get());
}
...

The endpoints above show you how to interact with the simplest type of storage - Variable<T>. The data saved there using set function will be persisted in the blockchain.

Tests

flipper.rs
#[cfg(test)]
mod tests {
use crate::flipper::FlipperDeployer;

#[test]
fn flipping() {
// To test a module we need to deploy it using autogenerated Deployer.
let mut contract = FlipperDeployer::initial_settings();
assert!(!contract.get());
contract.flip();
assert!(contract.get());
}
...

You can write tests in any way you prefer and know in Rust. In the example above we are deploying the contract using FlipperDeployer - a piece of code generated automatically thanks to the macros. The contract will be deployed on the VM you chose while running cargo odra test.

What's next

Now let's take a look at the different types of storage that Odra provides and how to use them.