This repository provides an interface to quickcheck-dynamic for developers of Plutus scripts. The main purpose of this repository is to offer an alternative to testing Plutus scripts with quickcheck via the plutus-apps repository. If you use the plutus-apps repository for development of your scripts, we refer to the tutorials. You do not need this repository, it is a dependency of plutus-apps.
TODO: we need some form of "how to get started" thing that details the work you need to do here. This requires having some base emulator that people can use...
This repository provides you with the means to automatically generate test cases for your Cardano smart
contracts. To do this it uses a model of the contract that you provide as an instance of the
ContactModel
class. This model describes for each action of your contract (e.g. contract endpoint
or functionality) what the behaviour of that action is on an abstracted contract and blockchain state.
It is very similar to the models provided in this
tutorial.
If you want to be independent of plutus-apps, use your own way and languages designing Plutus scripts, then this repository offers an emulator-generic interface for testing Cardano contracts on top of quickcheck-dynamic. There are standard properties that quickcheck tests for. The models provide automatic shrinking of failing test cases, such that your debug effort is minimized.
The contract model describes the actions users can perform with your contract. Many of these actions
will result in the generation of a transaction that is then posted to the blockchain.
However, you can also add actions to the model to wait a certain number of blocks or to put funds or
tokens into a wallet not involving the plutus script under test. The actions described in the model
have to be connected to the world in which you write your contract via the interface of a
perform
function via the RunModel
class.
The way to think about it is like a phase separation between the abstract world of
actions acting on a model, like Pay
and Redeem
, whereas you build your transactions via some code
that comes up with the actual transaction that you have written as part of your contract API. If that
API is Haskell, then the effort to write the perform
function is rather limited. However, if you
have written it in a different language, you need to bridge between Haskell and that language.
You have to provide an interface between the abstract operations in the contract model and the off-chain code in your project that creates the actual transactions.
In order to test your contract, the transactions you create are posted to a blockchain emulator. You can use any emulator you fancy as long as it is Cardano.API compatible. You could even use a testnet, but be aware that this can be very slow if you run hundreds of transactions in your tests. The API you need to implement talking to your emulator of choice is documented in EmulatorAPI.md.
When quickcheck runs your property, it collect on-chain coverage data (see this). That is, it collects statistics which part of the validators are used during testing, but most importantly, which validator parts are never used during testing. If certain parts of the validator are never triggered during testing, then testing may not be through enough.
We use the standard plutus compiler to insert coverage tags in the on-chain code. If you do not use the plutus compiler and still want to collect on-chain validator coverage information, you’ll need to add those in a different way.
There are standard properties for checking that your contract cannot get in a state in which funds are locked and nobody can get those funds out. You can re-use those properties. You can add your own additional unit tests, if so required.
TODO: Something about double satisfaction and threat models later