commit | 5cd4327b2a8d0daa4317bc80a7be71c0c7c98908 | [log] [download] |
---|---|---|
author | copy <copy@copy.sh> | Tue Jan 06 18:18:10 2015 +0100 |
committer | copy <copy@copy.sh> | Tue Jan 06 18:18:10 2015 +0100 |
tree | 749c9eb4712ce122fabaaffc4fe1e583eda49a44 | |
parent | 432b76c7ee38bc7f6b62cf1bddb000d6114ef044 [diff] |
Use faster tick implementation
v86 emulates an x86-compatible CPU and hardware. Here's a list of emulated hardware:
cpu.js
file, you need make
and cpp
(the C preprocessor). Run: make build/cpu.js
.git submodule update --init --recursive closure-compiler
and run make build/v86_all.js
.index.html
locally, make sure to serve it from a local webserver. You can use make run
to serve the files using Python's SimpleHTTPServer.git submodule update --init --recursive images
.To summarize:
git clone https://github.com/copy/v86.git # grab the main repo cd v86 git submodule update --init --recursive images # get the disk images git submodule update --init --recursive closure-compiler # fetch the disk images
Rebuild compiled version:
make
Rebuild only debug version (only necessary after changing .macro.js
files):
make build/cpu.js
Similiar projects have been done before, but I decided to work on this as a fun project and learn something about the x86 architecture. It has grown pretty advanced and I got Linux and KolibriOS working, so there might be some actual uses.
If you build something interesting, let me know.
Here's an overview of the operating systems supported in v86:
lowram
and choose PS2 mouse in xsetup. Takes circa 10 minutes to boot.udev
and X
fail, but you get a terminal.atkbd
to MODULES
in /etc/mkinitcpio.conf
.You can get some infos on the disk images here: https://github.com/copy/images
14KBXSoewGzbQY8VoznJ5MZXGxoia8RxC9
. If you want to donate elsewhere, let me know.Simplified BSD License, see LICENSE, unless otherwise noted.
Shoot me an email to copy@copy.sh
. Please don't tell about bugs via mail, create a bug report on GitHub instead.
Fabian Hemmer (http://copy.sh/, copy@copy.sh
)