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o1js README-dev

o1js is a TypeScript framework designed for zk-SNARKs and zkApps on the Mina blockchain.

For more information on our development process and how to contribute, see CONTRIBUTING.md. This document is meant to guide you through building o1js from source and understanding the development workflow.

Prerequisites

Before starting, ensure you have the following tools installed:

After cloning the repository, you need to fetch the submodules:

git submodule update --init --recursive

Building o1js

For most users, building o1js is as simple as running:

o1js README-dev

o1js is a TypeScript framework designed for zk-SNARKs and zkApps on the Mina blockchain.

For more information on our development process and how to contribute, see CONTRIBUTING.md. This document is meant to guide you through building o1js from source and understanding the development workflow.

Prerequisites

Before starting, ensure you have the following tools installed:

After cloning the repository, you need to fetch the submodules:

git submodule update --init --recursive

Building o1js

For most users, building o1js is as simple as running:

npm install
npm run build

This command compiles the TypeScript source files, making them ready for use. The compiled OCaml and WebAssembly artifacts are version-controlled to simplify the build process for end users. These artifacts are stored under src/bindings/compiled and contain the artifacts needed for both node and web builds. These files only have to be regenerated if there are changes to the OCaml or Rust source files.

Building Bindings

To regenerate the OCaml and WebAssembly artifacts, you can do so within the o1js repo. The bindings and Mina repos are both submodules of o1js so you can build them from within the o1js repo.

o1js depends on OCaml code that is transpiled to JavaScript using Js_of_ocaml and Rust code that is transpiled to WebAssembly using wasm-pack. These artifacts allow o1js to call into Pickles, snarky, and Kimchi to write zk-SNARKs and zkApps.

The compiled artifacts are stored under src/bindings/compiled and are version-controlled to simplify the build process for end-users.

If you want to rebuild the OCaml and Rust artifacts, you must be able to build the mina repo before building the bindings. See the Mina Dev Readme for more information. After you have configured your environment to build mina, you can build the bindings:

npm run build:update-bindings

This command builds the OCaml and Rust artifacts and copies them to the src/bindings/compiled directory.

Build Scripts

The root build script which kicks off the build process is under src/bindings/scripts/update-o1js-bindings.sh. This script is responsible for building the Node.js and web artifacts for o1js, and places them under src/bindings/compiled, to be used by o1js.

OCaml Bindings

o1js depends on Pickles, snarky, and parts of the Mina transaction logic, all of which are compiled to JavaScript and stored as artifacts to be used by o1js natively. The OCaml bindings are located under src/bindings. See the OCaml Bindings README for more information.

To compile the OCaml code, a build tool called Dune is used. Dune is a build system for OCaml projects, and is used in addition with Js_of_ocaml to compile the OCaml code to JavaScript. The dune file that is responsible for compiling the OCaml code is located under src/bindings/ocaml/dune. There are two build targets: o1js_node and o1js_web, which compile the Mina dependencies as well as link the wasm artifacts to build the Node.js and web artifacts, respectively. The output file is o1js_node.bc.js, which is used by o1js.

WebAssembly Bindings

o1js additionally depends on Kimchi, which is compiled to WebAssembly. Kimchi is located in the Mina repo under src/mina. See the Kimchi README for more information.

To compile the Wasm code, a combination of Cargo and Dune is used. Both build files are located under src/mina/src/lib/crypto/kimchi, where the wasm folder contains the Rust code that is compiled to Wasm, and the js folder that contains a wrapper around the Wasm code which allows Js_of_ocaml to compile against the Wasm backend.

For the Wasm build, the output files are:

  • plonk_wasm_bg.wasm: The compiled WebAssembly binary.
  • plonk_wasm_bg.wasm.d.ts: TypeScript definition files describing the types of .wasm or .js files.
  • plonk_wasm.js: JavaScript file that wraps the Wasm code for use in Node.js.
  • plonk_wasm.d.ts: TypeScript definition file for plonk_wasm.js.

Generated Constant Types

In addition to building the OCaml and Rust code, the build script also generates TypeScript types for constants used in the Mina protocol. These types are generated from the OCaml source files, and are located under src/bindings/crypto/constants.ts and src/bindings/mina-transaction/gen. When building the bindings, these constants are auto-generated by Dune. If you wish to add a new constant, you can edit the src/bindings/ocaml/o1js_constants file, and then run npm run build:bindings to regenerate the TypeScript files.

o1js uses these types to ensure that the constants used in the protocol are consistent with the OCaml source files.

Development

Branch Compatibility

If you work on o1js, create a feature branch off of one of these base branches. It's encouraged to submit your work-in-progress as a draft PR to raise visibility! When working with submodules and various interconnected parts of the stack, ensure you are on the correct branches that are compatible with each other.

How to Use the Branches

Default to main as the base branch.

The other base branches (berkeley and develop) are used only in specific scenarios where you want to adapt o1js to changes in the sibling repos on those other branches. Even then, consider whether it is feasible to land your changes to main and merge to berkeley and develop afterwards. Only changes in main will ever be released, so anything in the other branches has to be backported and reconciled with main eventually.

Repository mina -> o1js -> o1js-bindings
Branches o1js-main -> main -> main
berkeley -> berkeley -> berkeley
develop -> develop -> develop
  • o1js-main: The o1js-main branch in the Mina repository corresponds to the main branch in both o1js and o1js-bindings repositories. This branch is where stable releases and ramp-up features are maintained. The o1js-main branch runs in parallel to the Mina berkeley branch and does not have a subset or superset relationship with it. The branching structure is as follows (<- means direction to merge):

    • develop <- o1js-main <- current testnet - Typically, the current Testnet often corresponds to the rampup branch.
  • berkeley: The berkeley branch is maintained across all three repositories. This branch is used for features and updates specific to the Berkeley release of the project.

  • develop: The develop branch is also maintained across all three repositories. It is used for ongoing development, testing new features, and integration work.

Running Tests

To ensure your changes don't break existing functionality, run the test suite:

npm run test
npm run test:unit

In order for the mina-signer tests to run you must also build from inside its subdirectory:

cd src/mina-signer
npm run build
cd ../..

This runs all the unit tests and provides you with a summary of the test results.

Note that you can run individual jest tests via the command:

./jest <path/to/test.ts>

You can also run integration tests by running:

npm run test:integration

Finally, a set of end-to-end tests are run against the browser. These tests are not run by default, but you can run them by running:

npm install
npm run e2e:install
npm run build:web

npm run e2e:prepare-server
npm run test:e2e
npm run e2e:show-report

Run the GitHub actions locally

You can execute the CI locally by using act. First, generate a GitHub token and use:

act -j Build-And-Test-Server --matrix test_type:"Simple integration tests" -s $GITHUB_TOKEN

Releasing

To release a new version of o1js, you must first update the version number in package.json. Then, you can create a new pull request to merge your changes into the main branch. After the pull request is merged, a CI job automatically publishes the new version to npm.

Testing and Debugging

Test zkApps against Lightnet network

Use the lightweight Mina blockchain network (Lightnet) to test on a local blockchain before you test with a live network. To test zkApps against the local blockchain, first spin up Lightnet.

The easiest way is to use zkApp CLI sub-commands:

zk lightnet start # start the local network
# Do your tests and other interactions with the network
zk lightnet logs # manage the logs of the local network
zk lightnet explorer # visualize the local network state
zk lightnet stop # stop the local network

Use zk lightnet --help for more information.

You can also use the corresponding Docker image manually:

docker run --rm --pull=missing -it \
  --env NETWORK_TYPE="single-node" \
  --env PROOF_LEVEL="none" \
  --env LOG_LEVEL="Trace" \
  -p 3085:3085 \
  -p 5432:5432 \
  -p 8080:8080 \
  -p 8181:8181 \
  -p 8282:8282 \
  o1labs/mina-local-network:o1js-main-latest-lightnet

See the Docker Hub repository for more information.

Next up, get the Mina blockchain accounts information to be used in your zkApp.
After the local network is up and running, you can use the Lightnet o1js API namespace to get the accounts information.
See the corresponding example in src/examples/zkapps/hello-world/run-live.ts.

Profiling o1js

To enhance the development experience and optimize the performance of o1js, use the Chrome Debugger alongside Node.js. This setup is particularly useful when you want to profile the performance of your zkApp or o1js.

Using the run-debug script

To facilitate this process, use the provided script named run-debug. To use this script, run:

./run-debug <path-to-your-zkapp> --bundle

This script initializes a Node.js process with the --inspect-brk flag that starts the Node.js inspector and breaks before the user script starts (i.e., it pauses execution until a debugger is attached). The --enable-source-maps flag ensures that source maps are used to allow easy debugging of o1js code directly.

After the Node.js process is running, open the Chrome browser and navigate to chrome://inspect to attach the Chrome Debugger to the Node.js process. You can set breakpoints, inspect variables, and profile the performance of your zkApp or o1js. For more information on using the Chrome Debugger, see the DevTools documentation.