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BareMetal OS is an exokernel-based operating system crafted entirely in x86-64 assembly and is designed to provide unparalleled levels of flexibility and efficiency. By exposing hardware resources directly to applications, it empowers developers to finely tune and optimize their software for specific tasks. With the exokernel's minimalist design, it minimizes the overhead imposed by traditional operating systems, enabling applications to achieve peak performance. Its x86-64 assembly implementation speaks to its commitment to squeezing every ounce of performance from the hardware, making it a compelling choice for those who demand the utmost control and efficiency from their computing environments.

Note

BareMetal OS is under active development. Some physical hardware configurations may not work correctly.

Table of Contents

Prerequisites

The script in this repo depends on a Debian-based Linux system like Ubuntu or Elementary. macOS is also supported to build and test the OS, as well as the Assembly applications, if you are using Homebrew.

  • NASM - Assembly compiler to build the loader and kernel, as well as the apps written in Assembly.
  • QEMU - Computer emulator if you plan on running the OS for quick testing.
  • GCC - C compiler for building C/C++ applications.
  • Git - Version control software for pulling the source code from GitHub.
  • mtools - Utilities to access DOS (FAT32) disk images in Unix.

In Linux this can be completed with the following command:

sudo apt install nasm qemu-system-x86 gcc git mtools

In macOS via Homebrew this can be completed with the following command:

brew install nasm qemu gcc git mtools

Components

BareMetal OS consists of several different projects:

Supported Hardware

  • CPU
    • Multi-core on 64-bit x86 systems (Intel/AMD)
  • Bus
    • PCIe
    • PCI
  • Network
    • Gigabit
      • Intel 8254x Gigabit (e1000)
      • Intel 8257x Gigabit (e1000e)
      • Realtek 816x/811x Gigabit (rtl8169)
    • Virtual
      • Virtio-Net
  • Storage
    • NVMe
    • AHCI (SATA)
    • IDE
    • Virtio-Blk

Initial configuration

git clone https://github.com/ReturnInfinity/BareMetal-OS.git
cd BareMetal-OS
./baremetal.sh setup

baremetal.sh setup automatically runs the build and install functions. Once the setup is complete you can execute baremetal.sh run to verify that everything installed correctly.

Building

./baremetal.sh build

This command builds the boot sector, loader (Pure64), kernel, and simple command line interface (Monitor) to the disk image. If you want to attach your own binary to the end of the kernel you can use ./baremetal.sh build mybinary.bin

Installing

Installing the system

./baremetal.sh install

This command installs the software to the disk image.

Installing the demos

./baremetal.sh demos

This command installs the demo programs to the disk image.

Running on a virtual system

QEMU

./baremetal.sh run

QEMU via UEFI

./baremetal.sh run-uefi

QEMU - Second Instance

./baremetal.sh run-2

Running a cloned second instance is useful for testing network connectivity between QEMU systems.

VMware

./baremetal.sh vmdk

VirtualBox

./baremetal.sh vdi

Notes:

  • The VDI script rewrites the disk ID of the VDI file to avoid the disk warning in VirtualBox.
  • The Chipset Type for the VirtualBox VM must be ICH9
  • The Storage Controller should be ACHI (SATA) or NVMe (PCIe)

Bochs

bochs -f bochs.cfg

Notes:

  • The bochs.cfg file may need to be adjusted for your usage. It was created for a Linux-based system.
  • display_libary is set to use x for X Windows with the GUI Debugger by default. On macOS or Windows you will need to use sdl2 with no additional options.
  • The file paths for romimage and vgaromimage will need to be updated if the Bochs BIOS files are in a different location.

Running on a physical system

Booting via BIOS and UEFI is supported. Secure boot in UEFI mode must be disabled since this software isn't signed. You may need to press DEL or F12 on the keyboard on power-up to select the boot drive.

Debug logging is output via the serial port (115200 bps, 8 data bits, 1 stop bit, no parity, no flow control). The output should look similar to this:

[ Pure64 ]
boot bios
pml4 ok
acpi ok
bsp ok
pic ok
smp ok
kernel start

[ BareMetal ]
64
bus
storage
network
system ready

Important

Booting from a floppy or USB drive works. For BIOS-based floppy boot and UEFI-based USB drive booting there is a RAM drive image loaded that contains the demo programs.

Caution

Doublecheck that you are writing the disk image to the correct disk

dd if=baremetal_os.img of=/dev/sdc

Once the disk image is written you can install the disk in the system and boot from it.

// EOF