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 III level,
including full SSE2 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
- PAE
- 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 (8390) PCI network card.
- A virtio filesystem.
- A SoundBlaster 16 sound card.
Arch Linux — Damn Small Linux — Buildroot Linux — ReactOS — Windows 2000 — Windows 98 — Windows 95 — Windows 1.01 — MS-DOS — FreeDOS — FreeBSD — OpenBSD — 9front — Haiku — Oberon — KolibriOS — QNX
Here's an overview of the operating systems supported in v86:
- Linux works pretty well. Neither 64-bit nor PAE kernels are supported.
- Damn Small Linux (2.4 Kernel) works.
- All tested versions of TinyCore work.
- BuildRoot can be used to build a minimal image. humphd/browser-vm has some useful scripts for building one.
- Archlinux works. See archlinux.md for building an image.
- Debian works. An image can be built from a Dockerfile, see tools/docker/debian/.
- Alpine Linux works.
- ReactOS works.
- FreeDOS, Windows 1.01 and MS-DOS run very well.
- KolibriOS works.
- Haiku works.
- Android x86 1.6-r2 works if one selects VESA mode at the boot prompt. Newer versions haven't been tested.
- Windows 1, 3.0, 95, 98, ME and 2000 work. Other versions currently don't (see #86, #208).
- In Windows 2000 and higher the PC type has to be changed from ACPI PC to Standard PC
- 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 typeboot -c
, then at theUKC>
promptdisable mpbios
andexit
. - NetBSD works only with a custom kernel, see #350.
- SerenityOS doesn't work due to missing PAE support.
You can get some infos on the disk images here: https://github.com/copy/images.
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 for a full setup on Debian or WSL.
- Run
make
to build the debug build (atdebug.html
). - Run
make all
to build the optimized build (atindex.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 usemake 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. You can download it from the release section.
- 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-3.14 .
from the root directory to generate docker image. - Then you can simply run
docker run -it -p 8000:8000 v86:alpine-3.14
to start the server. - Check
localhost:8000
for hosted server.
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/{linux.iso,linux4.iso,buildroot-bzimage.bin,openbsd-floppy.img,kolibri.img,windows101.img,os8.img,freedos722.img}
Run all tests: make jshint rustfmt kvm-unit-test nasmtests nasmtests-force-jit expect-tests jitpagingtests qemutests rust-test tests
See tests/Readme.md for more infos.
- Basic
- Programatically using the serial terminal
- A Lua interpreter
- Two instances in one window
- Saving and restoring emulator state
Using v86 for your own purposes is as easy as:
var emulator = new V86Starter({
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.
v86 is distributed under the terms of the Simplified BSD License, see LICENSE. The following third-party dependencies are included in the repository under their own licenses:
- CPU test cases via QEMU
- More tests via kvm-unit-tests
- zstd support is included for better compression of state images
- Berkeley SoftFloat is included to precisely emulate 80-bit floating point numbers
- The jor1k project for 9p, filesystem and uart drivers
- WinWorld sources of some old operating systems
Shoot me an email to copy@copy.sh
. Please report bugs on GitHub.
Fabian Hemmer (https://copy.sh/, copy@copy.sh
)