Find a file
2020-07-12 12:41:58 +10:00
.github/workflows CI: Add Android APK builds 2020-07-12 01:15:23 +10:00
android Android: Hook up settings interface 2020-07-11 03:29:15 +10:00
appimage AppImage: Create zsync files during AppImage generation 2020-05-23 03:09:41 -07:00
CMakeModules cmake: Silence warnings with clang. 2020-02-12 12:06:00 -08:00
data Update compatibility database 2020-07-03 01:51:09 +10:00
dep cmake: SUPPORTS_X11 -> USE_X11 for glad 2020-07-12 12:41:58 +10:00
scripts compatibility_xml_to_csv.py: Fix handling of broken input 2020-05-25 14:43:12 +10:00
src GPU: Compute VRAM display width from GP1(06h) values 2020-07-11 10:57:23 -07:00
.clang-format clang-format: Enable brace wrapping after case label 2020-01-24 14:49:43 +10:00
.gitattributes Initial commit 2019-09-11 14:00:42 +10:00
.gitignore gitignore: Update build folder ignores 2020-04-13 22:12:42 -07:00
.gitmodules dep: Add minimal Qt for Windows submodule 2020-01-11 15:29:35 +10:00
appveyor.yml CI: Include qtbase5-private-dev package 2020-05-25 15:21:04 +10:00
CMakeLists.txt CMake: Drop required version to 3.7 2020-07-12 02:09:34 +10:00
CMakeSettings.json Initial commit 2019-09-11 14:00:42 +10:00
CONTRIBUTORS.md Update compatibility database 2020-07-03 01:51:09 +10:00
duckstation.sln libretro: Additional work 2020-06-30 03:03:56 +10:00
LICENSE Initial commit 2019-09-11 14:00:42 +10:00
README.md README.md: Update Android version status 2020-07-11 03:30:30 +10:00

DuckStation - PlayStation 1, aka. PSX Emulator

Discord Server: https://discord.gg/Buktv3t

Latest Windows, Linux (AppImage), and Libretro Builds: https://github.com/stenzek/duckstation/releases/tag/latest

Game Compatibility List: https://docs.google.com/spreadsheets/d/1H66MxViRjjE5f8hOl5RQmF5woS1murio2dsLn14kEqo/edit?usp=sharing

DuckStation is an simulator/emulator of the Sony PlayStation(TM) console, focusing on playability, speed, and long-term maintainability. Accuracy is not the main focus of the emulator, but the goal is to be as accurate as possible while maintaining performance suitable for low-end devices. "Hack" options are discouraged, the default configuration should support all playable games with only some of the enhancements having compatibility issues.

A "BIOS" ROM image is required to to start the emulator and to play games. You can use an image from any hardware version or region, although mismatching game regions and BIOS regions may have compatibility issues. A ROM image is not provided with the emulator for legal reasons, you should dump this from your own console using Caetla or other means.

Latest News

  • 2020/07/04: Vulkan renderer now available in libretro core.
  • 2020/07/02: Now available as a libretro core.
  • 2020/07/01: Lightgun support with custom crosshairs.
  • 2020/06/19: Vulkan hardware renderer added.

Features

DuckStation features a fully-featured frontend built using Qt (pictured), as well as a simplified frontend based on SDL and Dear ImGui. An Android version has been started, but is not yet feature complete.

Main Window Screenshot

Other features include:

  • CPU Recompiler/JIT (x86-64 and AArch64)
  • Hardware (D3D11, OpenGL, Vulkan) and software rendering
  • Upscaling and true colour (24-bit) in hardware renderers
  • "Fast boot" for skipping BIOS splash/intro
  • Save state support
  • Windows, Linux, highly experimental macOS support
  • Supports bin/cue images, raw bin/img files, and MAME CHD formats.
  • Direct booting of homebrew executables
  • Direct loading of Portable Sound Format (psf) files
  • Digital and analog controllers for input (rumble is forwarded to host)
  • Namco GunCon lightgun support (simulated with mouse)
  • NeGcon support
  • Qt and SDL frontends for desktop
  • libretro core for Windows and Linux
  • Automatic content scanning - game titles/regions are provided by redump.org
  • Optional automatic switching of memory cards for each game

System Requirements

  • A CPU faster than a potato. But it needs to be 64-bit otherwise you won't get a recompiler and it'll be slow. There are no plans to add any 32-bit recompilers.
  • For the hardware renderers, a GPU capable of OpenGL 3.0/OpenGL ES 3.0/Direct3D 11 Feature Level 10.0 (or Vulkan 1.0) and above. So, basically anything made in the last 10 years or so.
  • SDL-compatible game controller (e.g. XB360/XBOne)

Downloading and running

Binaries of DuckStation for 64-bit Windows and 64-bit Linux (in AppImage format) are available via GitHub Releases and are automatically built with every commit/push. Binaries or packages distributed through other sources may be out of date and are not supported by the developer.

Windows

Windows 10 is the only version of Windows supported by the developer. Windows 7/8 may work, but is not supported. I am aware some users are still using Windows 7, but it is no longer supported by Microsoft and too much effort to get running on modern hardware. Game bugs are unlikely to be affected by the operating system, however performance issues should be verified on Windows 10 before reporting.

To download:

Once downloaded and extracted, you can launch the Qt frontend from duckstation-qt-x64-ReleaseLTCG.exe, or the SDL frontend from duckstation-sdl-x64-ReleaseLTCG.exe. To set up:

  1. Either configure the path to a BIOS image in the settings, or copy one or more PlayStation BIOS images to the bios/ subdirectory. On Windows, by default this will be located in C:\Users\YOUR_USERNAME\Documents\DuckStation\bios.
  2. If using the SDL frontend, add the directories containing your disc images by clicking Settings->Add Game Directory.
  3. Select a game from the list, or open a disc image file and enjoy.

If you get an error about vcruntime140_1.dll being missing, you will need to update your Visual C++ runtime. You can do that from this page: https://support.microsoft.com/en-au/help/2977003/the-latest-supported-visual-c-downloads. Specifically, you want the x64 runtime, which can be downloaded from https://aka.ms/vs/16/release/vc_redist.x64.exe.

Linux

Prebuilt binaries for 64-bit Linux distros are available for download in the AppImage format. However, these binaries may be incompatible with older Linux distros (e.g. Ubuntu distros earlier than 18.04.4 LTS) due to older distros not providing newer versions of the C/C++ standard libraries required by the AppImage binaries.

Linux users are encouraged to build from source when possible and optionally create their own AppImages for features such as desktop integration if desired.

To download:

  • Go to https://github.com/stenzek/duckstation/releases/tag/latest, and download either duckstation-qt-x64.AppImage or duckstation-sdl-x64.AppImage for your desired frontend. Keep in mind that keyboard/controller bindings are currently not customizable through the SDL frontend and should be customized through the Qt frontend instead.
  • Run chmod a+x on the downloaded AppImage -- following this step, the AppImage can be run like a typical executable.
  • Optionally use a program such as appimaged or AppImageLauncher for desktop integration. AppImageUpdate can be used alongside appimaged to easily update your DuckStation AppImage.

Title Information

PlayStation game discs do not contain title information. For game titles, we use the redump.org database cross-referenced with the game's executable code. This database can be manually downloaded and added as cache/redump.dat, or automatically downloaded by going into the Game List Settings in the Qt Frontend, and clicking Update Redump Database.

Region detection and BIOS images

By default, DuckStation will emulate the region check present in the CD-ROM controller of the console. This means that when the region of the console does not match the disc, it will refuse to boot, giving a "Please insert PlayStation CD-ROM" message. DuckStation supports automatic detection disc regions, and if you set the console region to auto-detect as well, this should never be a problem.

If you wish to use auto-detection, you do not need to change the BIOS path each time you switch regions. Simply place the BIOS images for the other regions in the same directory as the configured image. This will probably be in the bios/ subdirectory. Then set the console region to "Auto-Detect", and everything should work fine. The console/log will tell you if you are missing the image for the disc's region.

Some users have been confused by the "BIOS Path" option, the reason it is a path and not a directory is so that an unknown BIOS revision can be used/tested.

Alternatively, the region checking can be disabled in the console options tab. This is the only way to play unlicensed games or homebrew which does not supply a correct region string on the disc, aside from using fastboot which skips the check entirely.

Mismatching the disc and console regions with the check disabled is supported, but may break games if they are patching the BIOS and expecting specific content.

LibCrypt protection and SBI files

A number of PAL region games use LibCrypt protection, requiring additional CD subchannel information to run properly. For these games, make sure that the CD image and its corresponding SBI (.sbi) file have the same name and are placed in the same directory. DuckStation will automatically load the SBI file when it is found next to the CD image.

Building

Windows

Requirements:

  • Visual Studio 2019
  1. Clone the respository with submodules (git clone --recursive or git clone and git submodule update --init).
  2. Open the Visual Studio solution duckstation.sln in the root, or "Open Folder" for cmake build.
  3. Build solution.
  4. Binaries are located in bin/x64.
  5. Run duckstation-sdl-x64-Release.exe/duckstation-qt-x64-Release.exe or whichever config you used.

Linux

Requirements (Debian/Ubuntu package names):

  • CMake (cmake)
  • SDL2 (libsdl2-dev)
  • GTK2.0 for file selector (libgtk2.0-dev)
  • Qt 5 (qtbase5-dev, qtbase5-private-dev, qtbase5-dev-tools)
  • Optional for faster building: Ninja (ninja-build)
  1. Clone the repository. Submodules aren't necessary, there is only one and it is only used for Windows.
  2. Create a build directory, either in-tree or elsewhere.
  3. Run cmake to configure the build system. Assuming a build subdirectory of build-release, cd build-release && cmake -DCMAKE_BUILD_TYPE=Release -GNinja ...
  4. Compile the source code. For the example above, run ninja.
  5. Run the binary, located in the build directory under bin/duckstation-sdl, or bin/duckstation-qt.

macOS

NOTE: macOS is highly experimental and not tested by the developer. Use at your own risk, things may be horribly broken.

Requirements:

  • CMake (installed by default? otherwise, brew install cmake)
  • SDL2 (brew install sdl2)
  • Qt 5 (brew install qt5)
  1. Clone the repository. Submodules aren't necessary, there is only one and it is only used for Windows.
  2. Create a build directory, either in-tree or elsewhere, e.g. mkdir build-release, cd build-release.
  3. Run cmake to configure the build system: cmake -DCMAKE_BUILD_TYPE=Release -DQt5_DIR=/usr/local/opt/qt/lib/cmake/Qt5 ... You may need to tweak Qt5_DIR depending on your system.
  4. Compile the source code: make. Use make -jN where N is the number of CPU cores in your system for a faster build.
  5. Run the binary, located in the build directory under bin/duckstation-sdl, or bin/duckstation-qt.

Application bundles/.apps are currently not created, so you can't launch it via Finder yet. This is planned for the future.

Android

NOTE: The Android frontend is still incomplete, not all functionality is available yet. User directory is hardcoded to /sdcard/duckstation for now.

Requirements:

  • Android Studio with the NDK and CMake installed
  1. Clone the repository. Submodules aren't necessary, there is only one and it is only used for Windows.
  2. Open the project in the android directory.
  3. Select Build -> Build Bundle(s) / APKs(s) -> Build APK(s).
  4. Install APK on device, or use Run menu for attached device.

User Directories

The "User Directory" is where you should place your BIOS images, where settings are saved to, and memory cards/save states are saved by default.

This is located in the following places depending on the platform you're using:

  • Windows: My Documents\DuckStation
  • Linux: $XDG_DATA_HOME/duckstation, or ~/.local/share/duckstation.
  • macOS: ~/Library/Application Support/DuckStation.

So, if you were using Linux, you would place your BIOS images in ~/.local/share/duckstation/bios. This directory will be created upon running DuckStation for the first time.

If you wish to use a "portable" build, where the user directory is the same as where the executable is located, create an empty file named portable.txt in the same directory as the DuckStation executable.

Bindings for Qt frontend

Your keyboard and any SDL-compatible game controller can be used to simulate the PS Controller. To bind keys/controllers to buttons, go to Settings -> Port Settings. Each of the buttons will be listed, along with the corresponding key it is bound to. To re-bind the button to a new key, click the button next to button name, and press the key/button you want to use within 5 seconds.

Currently, it is only possible to bind one input to each controller button/axis. Multiple bindings per button are planned for the future.

Bindings for SDL frontend

Keyboard bindings in the SDL frontend are currently not customizable in the frontend itself. You should use the Qt frontend to set up your key/controller bindings first.

Default bindings

Controller 1:

  • D-Pad: W/A/S/D
  • Triangle/Square/Circle/Cross: Numpad8/Numpad4/Numpad6/Numpad2
  • L1/R1: Q/E
  • L2/L2: 1/3
  • Start: Enter
  • Select: Backspace

Hotkeys:

  • Escape: Power off console
  • ALT+ENTER: Toggle fullscreen
  • Tab: Temporarily disable speed limiter
  • Pause/Break: Pause/resume emulation
  • Page Up/Down: Increase/decrease resolution scale in hardware renderers
  • End: Toggle software renderer

Libretro Core

DuckStation is available as a libretro core, which can be loaded into a frontend such as RetroArch. It supports most features of the full frontend, within the constraints and limitations of being a libretro core.

Prebuilt binaries for 64-bit Windows, Linux and Android can be found on the releases page. Direct links:

To use, download and extract, and install the core file in RetroArch or your preferred frontend.

To build on Windows, simply compile in the same manner as the normal frontend build. A libretro DLL will be built automatically and placed in the output directory. This will be based on the configuration you selected, you can load it directly into RetroArch, or rename it to duckstation_libretro.dll.

Alternatively, you can build via cmake using the following commands from a x64 Native Tools Command Prompt for VS 2019:

  • mkdir build
  • cd build
  • cmake -G Ninja -DCMAKE_BUILD_TYPE=Release -DBUILD_LIBRETRO_CORE=ON ..

You should then have a file named duckstation_libretro.dll which can be loaded as a core.

To build on Linux, follow the same instructions as for a normal build, but for cmake use cmake -DCMAKE_BUILD_TYPE=Release -DBUILD_LIBRETRO_CORE=ON ... The shared library will be named duckstation_libretro.so in the current directory.

Tests

  • Passes amidog's CPU and GTE tests in both interpreter and recompiler modes, partial passing of CPX tests

Screenshots

Final Fantasy 7 Final Fantasy 8 SDL Frontend Spyro 2

Disclaimers

Icon by icons8: https://icons8.com/icon/74847/platforms.undefined.short-title

"PlayStation" and "PSX" are registered trademarks of Sony Interactive Entertainment Europe Limited. This project is not affiliated in any way with Sony Interactive Entertainment.