[![Join the chat at https://gitter.im/copy/v86](https://badges.gitter.im/Join%20Chat.svg)](https://gitter.im/copy/v86) or #v86 on [irc.libera.chat](https://libera.chat/) v86 emulates an x86-compatible CPU and hardware. Machine code is translated to WebAssembly modules at runtime in order to achieve decent performance. Here's a list of emulated hardware: - An x86-compatible CPU. The instruction set is around Pentium 4 level, including full SSE3 support. Some features are missing, in particular: - Task gates, far calls in protected mode - Some 16 bit protected mode features - Single stepping (trap flag, debug registers) - Some exceptions, especially floating point and SSE - Multicore - 64-bit extensions - A floating point unit (FPU). Calculations are done using the Berkeley SoftFloat library and therefore should be precise (but slow). Trigonometric and log functions are emulated using 64-bit floats and may be less precise. Not all FPU exceptions are supported. - A floppy disk controller (8272A). - An 8042 Keyboard Controller, PS2. With mouse support. - An 8254 Programmable Interval Timer (PIT). - An 8259 Programmable Interrupt Controller (PIC). - Partial APIC support. - A CMOS Real Time Clock (RTC). - A generic VGA card with SVGA support and Bochs VBE Extensions. - A PCI bus. This one is partly incomplete and not used by every device. - An IDE disk controller. - An NE2000 (RTL8390) PCI network card. - A VirtIO filesystem. - A SoundBlaster 16 sound card. ## Demos [9front](https://copy.sh/v86/?profile=9front) — [Arch Linux](https://copy.sh/v86/?profile=archlinux) — [Android-x86 1.6-r2](https://copy.sh/v86?profile=android) — [Android-x86 4.4-r2](https://copy.sh/v86?profile=android4) — [BasicLinux](https://copy.sh/v86/?profile=basiclinux) — [Buildroot Linux](https://copy.sh/v86/?profile=buildroot) — [Damn Small Linux](https://copy.sh/v86/?profile=dsl) — [ELKS](https://copy.sh/v86/?profile=elks) — [FreeDOS](https://copy.sh/v86/?profile=freedos) — [FreeBSD](https://copy.sh/v86/?profile=freebsd) — [FiwixOS](https://copy.sh/v86/?profile=fiwix) — [Haiku](https://copy.sh/v86/?profile=haiku) — [SkiffOS](https://copy.sh/v86/?profile=copy/skiffos) — [ReactOS](https://copy.sh/v86/?profile=reactos) — [Windows 2000](https://copy.sh/v86/?profile=windows2000) — [Windows 98](https://copy.sh/v86/?profile=windows98) — [Windows 95](https://copy.sh/v86/?profile=windows95) — [Windows 1.01](https://copy.sh/v86/?profile=windows1) — [MS-DOS 6.22](https://copy.sh/v86/?profile=msdos) — [OpenBSD](https://copy.sh/v86/?profile=openbsd) — [Oberon](https://copy.sh/v86/?profile=oberon) — [KolibriOS](https://copy.sh/v86/?profile=kolibrios) — [SkiftOS](https://copy.sh/v86?profile=skift) — [QNX](https://copy.sh/v86/?profile=qnx) ## Documentation [How it works](docs/how-it-works.md) — [Networking](docs/networking.md) — [Arch Linux guest setup](docs/archlinux.md) — [Windows 2000/XP guest setup](docs/windows-xp.md) — [9p filesystem](docs/filesystem.md) — [Linux rootfs on 9p](docs/linux-9p-image.md) — [Profiling](docs/profiling.md) — [CPU Idling](docs/cpu-idling.md) ## Compatibility Here's an overview of the operating systems supported in v86: - Linux works pretty well. 64-bit kernels are not supported. - Damn Small Linux (2.4.31 kernel) works. - Fedora 30 works. - All tested versions of TinyCore work. - [Buildroot](https://buildroot.uclibc.org) can be used to build a minimal image. [humphd/browser-vm](https://github.com/humphd/browser-vm) and [darin755/browser-buildroot](https://github.com/Darin755/browser-buildroot) have some useful scripts for building one. - [SkiffOS](https://github.com/skiffos/SkiffOS/tree/master/configs/browser/v86) (based on Buildroot) can cross-compile a custom image. - Archlinux works. See [archlinux.md](docs/archlinux.md) for building an image. - Debian works. An image can be built from a Dockerfile, see [tools/docker/debian/](tools/docker/debian/). - Ubuntu works up to the latest version that supported i386 (16.04 LTS or 18.04 LTS for some variants). - Alpine Linux works. - ReactOS works. - FreeDOS, Windows 1.01 and MS-DOS run very well. - KolibriOS works. - Haiku works. - Android-x86 has been tested up to 4.4-r2. - Windows 1, 3.x, 95, 98, ME, NT and 2000 work reasonably well. - In Windows 2000 and higher the PC type has to be changed from ACPI PC to Standard PC - There are some known boot issues ([#250](https://github.com/copy/v86/issues/250), [#433](https://github.com/copy/v86/issues/433), [#507](https://github.com/copy/v86/issues/507), [#555](https://github.com/copy/v86/issues/555), [#620](https://github.com/copy/v86/issues/620), [#645](https://github.com/copy/v86/issues/645)) - Windows XP, Vista and 8 work under certain conditions (see [#86](https://github.com/copy/v86/issues/86), [#208](https://github.com/copy/v86/issues/208)) - See [Windows 2000/XP guest setup](docs/windows-xp.md) - Many hobby operating systems work. - 9front works. - Plan 9 doesn't work. - QNX works. - OS/2 doesn't work. - FreeBSD works. - OpenBSD works with a specific boot configuration. At the `boot>` prompt type `boot -c`, then at the `UKC>` prompt `disable mpbios` and `exit`. - NetBSD works only with a custom kernel, see [#350](https://github.com/copy/v86/issues/350). - SerenityOS works. - [SkiftOS](https://skiftos.org/) works. You can get some information on the disk images here: https://github.com/copy/images. ## How to build, run and embed? You need: - make - Rust with the wasm32-unknown-unknown target - A version of clang compatible with Rust - java (for Closure Compiler, not necessary when using `debug.html`) - nodejs (a recent version is required, v16.11.1 is known to be working) - To run tests: nasm, gdb, qemu-system, gcc, libc-i386 and rustfmt See [tools/docker/test-image/Dockerfile](tools/docker/test-image/Dockerfile) for a full setup on Debian or [WSL](https://docs.microsoft.com/en-us/windows/wsl/install). - Run `make` to build the debug build (at `debug.html`). - Run `make all` to build the optimized build (at `index.html`). - ROM and disk images are loaded via XHR, so if you want to try out `index.html` locally, make sure to serve it from a local webserver. You can use `make run` to serve the files using Python's http module. - If you only want to embed v86 in a webpage you can use libv86.js. For usage, check out the [examples](examples/). You can download it from the release section. ### Alternatively, to build using docker - If you have docker installed, you can run the whole system inside a container. - See `tools/docker/exec` to find Dockerfile required for this. - You can run `docker build -f tools/docker/exec/Dockerfile -t v86:alpine-3.19 .` from the root directory to generate docker image. - Then you can simply run `docker run -it -p 8000:8000 v86:alpine-3.19` to start the server. - Check `localhost:8000` for hosted server. ### Running via Devcontainer - If you are using an IDE that supports Devcontainers, such as Github Codespaces, VSCode Remote Container extension, or possibly others such as Jetbrains IDEA, you can setup the development environment in a Dev container. - Follow the instructions from your development environment to setup the container. - Run the Task "Fetch images" in order to download images for testing. ## Testing The disk images for testing are not included in this repository. You can download them directly from the website using: `wget -P images/ https://k.copy.sh/{linux3.iso,linux.iso,linux4.iso,buildroot-bzimage.bin,openbsd-floppy.img,kolibri.img,windows101.img,os8.img,freedos722.img}` Run integration tests: `make tests` Run all tests: `make jshint rustfmt kvm-unit-test nasmtests nasmtests-force-jit expect-tests jitpagingtests qemutests rust-test tests` See [tests/Readme.md](tests/Readme.md) for more information. ## API examples - [Basic](examples/basic.html) - [Programatically using the serial terminal](examples/serial.html) - [A Lua interpreter](examples/lua.html) - [Two instances in one window](examples/two_instances.html) - [Saving and restoring emulator state](examples/save_restore.html) Using v86 for your own purposes is as easy as: ```javascript var emulator = new V86({ screen_container: document.getElementById("screen_container"), bios: { url: "../../bios/seabios.bin", }, vga_bios: { url: "../../bios/vgabios.bin", }, cdrom: { url: "../../images/linux.iso", }, autostart: true, }); ``` See [starter.js](src/browser/starter.js). ## License v86 is distributed under the terms of the Simplified BSD License, see [LICENSE](LICENSE). The following third-party dependencies are included in the repository under their own licenses: - [`lib/softfloat/softfloat.c`](lib/softfloat/softfloat.c) - [`lib/zstd/zstddeclib.c`](lib/zstd/zstddeclib.c) - [`tests/kvm-unit-tests/`](tests/kvm-unit-tests) - [`tests/qemutests/`](tests/qemutests) ## Credits - CPU test cases via [QEMU](https://wiki.qemu.org/Main_Page) - More tests via [kvm-unit-tests](https://www.linux-kvm.org/page/KVM-unit-tests) - [zstd](https://github.com/facebook/zstd) support is included for better compression of state images - [Berkeley SoftFloat](http://www.jhauser.us/arithmetic/SoftFloat.html) is included to precisely emulate 80-bit floating point numbers - [The jor1k project](https://github.com/s-macke/jor1k) for 9p, filesystem and uart drivers - [WinWorld](https://winworldpc.com/) sources of some old operating systems ## More questions? Shoot me an email to `copy@copy.sh`. Please report bugs on GitHub. ## Author Fabian Hemmer (https://copy.sh/, `copy@copy.sh`)