Decompilation of The Legend of Zelda: Majora's Mask
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Legend of Zelda: Majora's Mask (US) 1.0

Build Status Decompilation Progress Contributors Discord Channel

- WARNING! -

This repository is a work in progress, and while it can be used to make certain changes, it's 
still constantly evolving. If you wish to use it for modding purposes in its current state,
please be aware that the codebase could drastically change at any time. Also note that some
parts of the ROM may not be 'shiftable' yet, so modifying them could currently be difficult.

This is a WIP decompilation of The Legend of Zelda: Majora's Mask. The purpose of the project is to recreate a source code base for the game from scratch, using information found inside the game along with static and/or dynamic analysis. It is not, and will not, produce a PC port. For frequently asked questions, you can visit our website, and for more information you can get in touch with the team on our Discord server.

The only version currently supported is N64 US, but we intend to eventually support every retail version of the original game (i.e. not versions of MM3D, which is a totally different game).

It currently builds the following ROM:

  • mm.us.rev1.rom.z64 md5: 2a0a8acb61538235bc1094d297fb6556

This repo does not include any assets or assembly code necessary for compiling the ROM. A prior copy of the game is required to extract the required assets.

Please refer to the following for more information:

Installation

Windows

For Windows 10, install WSL and a distribution by following this Windows Subsystem for Linux Installation Guide. We recommend using Debian or Ubuntu 20.04 Linux distributions.

MacOS

Preparation is covered in a separate document.

Docker

Preparation is covered in Building Docker.

Linux (Native or under WSL / VM)

1. Install build dependencies

The build process has the following package requirements:

  • make
  • git
  • build-essential
  • binutils-mips-linux-gnu
  • python3
  • pip3
  • libpng-dev
  • python3-venv

Under Debian / Ubuntu (which we recommend using), you can install them with the following commands:

sudo apt update
sudo apt install make git build-essential binutils-mips-linux-gnu python3 python3-pip libpng-dev python3-venv

2. Clone the repository

Create your own fork of the repository at https://github.com/zeldaret/mm. Then clone your fork where you wish to have the project, with the command:

git clone https://github.com/<YOUR_USERNAME>/mm.git

This will copy the GitHub repository contents into a new folder in the current directory called mm. Change into this directory before doing anything else:

cd mm

3. Install python dependencies

The build process has a few python packages required that are located in requirements.txt.

It is recommend to setup a virtual environment for python to localize all dependencies. To create a virtual environment:

python3 -m venv .mm-env

To activate or deactivate the virtual environment run either:

# Activates the mm-env virtual environment
source .mm-env/bin/activate 
# Deactivates the active virtual environment
deactivate

Once activated you can install the required dependencies:

pip install -r requirements.txt  # or python3 -m pip if you want

Important: This virtual environment will need to be activated everytime you enter the repo.

4. Prepare a base ROM

Copy your ROM to inside the root of this new project directory, and rename the file of the baserom to reflect the version of ROM you are using. ex: baserom.mm.us.rev1.z64

5. Make and Build the ROM

To start the extraction/build process, run the following command:

make init

This will extract all the individual files in the ROM into a newly created baserom folder, as well as decompress the compressed files in a newly created decomp folder. This will create the build folders as well as a new folder with the ASM as well as containing the disassemblies of nearly all the files containing code.

This make target will also build the ROM. If all goes well, a new ROM called "mm.us.rev1.rom.z64" should be built and the following text should be printed:

mm.us.rev1.rom.z64: OK

If you instead see the following:

mm.us.rev1.rom.z64: FAILED
md5sum: WARNING: 1 computed checksum did NOT match

This means that something is wrong with the ROM's contents. Either the baserom files are incorrect due to a bad ROM, or some of the code is not matching.

Running make init will also make the ./expected directory and copy all of the files there, which will be useful when running the diff script. The diff script is useful in decompiling functions and can be run with this command: ./tools/asm-differ/diff.py -wmo3 <insert_function_here>

Note: to speed up the build, you can pass -jN to make setup and make, where N is the number of threads to use in the build, e.g. make -j4. The generally-accepted wisdom is to use the number of virtual cores your computer has, which is the output of nproc (which should be installed as part of coreutils). The disadvantage that the ordering of the terminal output is scrambled, so for debugging it is best to stick to one thread (i.e. not pass -jN). (-j also exists, which uses unlimited jobs, but is generally slower.)

Contributing

All contributions are welcome. This is a group effort, and even small contributions can make a difference. Some work also doesn't require much knowledge to get started.

Please note that is is our strict policy that Anyone who wishes to contribute to the OOT or MM projects must not have accessed leaked source code at any point in time for Nintendo 64 SDK, iQue player SDK, libultra, Ocarina of Time, Majora's Mask, Animal Crossing/Animal Forest, or any other game that shares the same game engine or significant portions of code to a Zelda 64 game or any other console similar to the Nintendo 64.

Most discussions happen on our Discord Server, where you are welcome to ask if you need help getting started, or if you have any questions regarding this project or ZeldaRET's other decompilation projects.

For more information on getting started, see our Contributing Guide, Style Guide and our Code Review Guidelines to see what code quality guidelines we follow.