UMKa -- User-Mode KolibriOS developer tools
===========================================
This is a common project for a set of KolibriOS developer tools which are based
on original KolibriOS kernel code wrapped and hacked as to run in the UNIX
programming environment. The idea is to make userspace UNIX tools that use as
much unchanged KolibriOS kernel source as possible to run, test and debug
architecture-independent parts of the kernel in your favorite developer
environment.
What works now:
* block layer (disk, cache, partition, MBR, GPT),
* file systems except iso9660 (fat*, exfat, ext*, xfs),
* UI and graphics (geometric primitives, windows, winmap, cursors),
* basic network (configuration, ping replies),
* interrupts (via signals),
* threads and processes,
* scheduler,
* slab allocator,
* events,
* synchronization primitives,
* unpacker,
* string functions,
* other minor functions.
umka_shell
----------
is an interactive shell with commands that are wrappers around KolibriOS kernel
syscalls and other internal functions. It can also be used for automated testing
by feeding it a file of commands instead of typing them.
Example:
$ umka_shell < mytest.t
umka_fuse
---------
is like umka_shell above but commands are translated from FUSE calls, not
entered manually or read from a file. Can *potentially* be used to run xfstests
(cross-fs-tests) and automated tests against reference FS implementation.
umka_os
-------
is KolibriOS kernel running main loop (osloop), scheduler and all the threads
including network stack.
tools
-----
mkdirrange - make directories with names in range
mkfilepattern - make a file with contents of specific pattern
BUILD
-----
Linux:
$ KOLIBRIOS=/path/to/kolibrios HOST=linux CC=gcc make
/path/to/kolibrios is where you checked out 'svn co svn://kolibrios.org'.
Windows:
Same but specify HOST=windows and your favourite C compiler.
Architecture
------------
Kernel services are replaced with stubs, wrappers around userspace
implementation or libc calls. Block devices are emulated with regular files.
Framebuffer can be dumped to disk as image file.
Testing
-------
# Run all the tests
$ HOST=linux make -B
# Copy ACPI tables and PCI configs
$ sudo cp --parents /sys/firmware/acpi/tables/?SDT* /sys/bus/pci/devices/*/config .
# Manage tap device
$ sudo ip tuntap add dev tap0 mode tap
$ sudo ip link set tap0 address 00:11:00:00:00:00
$ sudo ip addr add 10.50.0.1/24 dev tap0
$ sudo ip link set up dev tap0
$ sudo ip tuntap del dev tap0 mode tap
Troubleshooting
---------------
# umka_monitor
Allow reading process_vm_readv syscall.
# sysctl -w kernel.yama.ptrace_scope=0
# umka_os
To create tap devices.
# setcap cap_net_admin+ep umka_os
To load apps at 0 address.
# sysctl -w vm.mmap_min_addr=0
Links & Acknowledgements
------------------------
[ 1] Filesystem in Userspace
https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/fs/fuse
[ 2] Filesystem in Userspace library
https://github.com/libfuse/libfuse
[ 3] LodePNG by Lode Vandevenne
https://lodev.org/lodepng/
[ 4] Optparse by Christopher Wellons
https://github.com/skeeto/optparse
[ 5] Universal TUN/TAP device driver by Maxim Krasnyansky and others
https://www.kernel.org/doc/html/v5.12/networking/tuntap.html
[ 6] Bestline by Justine Tunney
https://github.com/jart/bestline
[ 7] Miniz by Rich Geldreich
https://github.com/richgel999/miniz
[ 8] qemu-nbd by Anthony Liguori and others
https://www.qemu.org/docs/master/tools/qemu-nbd.html
[ 9] io_uring by Jens Axboe and others
https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/io_uring
[10] io_uring-by-example by Shuveb Hussain
https://github.com/shuveb/io_uring-by-example
[11] Simple DirectMedia Layer library aka SDL2
https://libsdl.org