DiscoBSD is a 2.11BSD-based UNIX-like operating system for microcontrollers, with a focus on high portability to memory constrained devices without a memory management unit.
The current and fourth official release of DiscoBSD is DiscoBSD 2.3, released on August 11, 2024.
This microcontroller-focused operating system is an independent continuation of RetroBSD, a 2.11BSD-based OS targeting the MIPS-based PIC32MX7. DiscoBSD is multi-platform, as it also supports Arm Cortex-M4 STM32F4 devices.
Source code to the system is freely available under a BSD-like license.
DiscoBSD began as an undergraduate Directed Study in the winter of 2020 at the University of Victoria, Canada, as a case study of RetroBSD to port the operating system to the Arm Cortex-M4 architecture, and to enable portability in the hosting environment and target architectures and platforms. The paper Porting the Unix Kernel details this initial porting effort.
Work on DiscoBSD has progressed in earnest since the completion of the Directed Study, with the DiscoBSD/stm32 port booting multi-user in August 2022. The system is quite usable on supported development boards.
And work continues...
A basic, minimal system uses 128 Kbytes of flash and 128 Kbytes of RAM.
The kernel is loaded into the flash and only uses 32 Kbytes of RAM. User programs each use the remaining 96 Kbytes of RAM, via swapping. Devices with more RAM can be used to run larger user programs.
An SD card, at least 512 Mbytes in size, is required for the root file system.
Installation consists of loading the kernel into the microcontroller's flash
memory, and imaging the SD card with the file sdcard.img
.
The make
target installfs
uses the dd
utility to image the SD card
attached to the host operating system at SDCARD
, such as /dev/rsdXc
or
/dev/sdX
or /dev/rdiskX
, replacing X
with the actual drive number or
letter, as the case may be.
For example, imaging an SD card attached at sd2
on an OpenBSD host
operating system through the raw i/o device:
$ SDCARD=/dev/rsd2c make installfs
Communication with the DiscoBSD console requires a serial port. A USB to TTL device or the built-in VCP USB serial port on development boards can be used.
$ cu -l /dev/cuaU0 -s 115200
Depending on the host system, other serial port utilities such as screen
,
minicom
, putty
, or teraterm
may be used.
Log in to DiscoBSD with user root
and a blank password.
Shutdown DiscoBSD with the halt
, shutdown
, or reboot
commands.
Manual pages for commands are available through the man
command.
DiscoBSD is cross-built on UNIX-like host operating systems.
Currently supported host operating systems: OpenBSD, Linux, FreeBSD.
Instructions to configure an OpenBSD host development environment for Arm and MIPS targets is available here.
The build system fully supports both BSD make and GNU make.
From the source tree root, run:
$ make build
or just:
$ make
which builds ELF-formatted kernels in the files sys/stm32/${BOARD}/unix
and builds and populates a whole file system userland in DESTDIR
.
Running:
$ make distribution
will build everything from a make build
, plus generate a file system
image in the file distrib/stm32/sdcard.img
for imaging to an SD card.
DiscoBSD/stm32 is the default port, but DiscoBSD/pic32 may be built via:
$ make clean
$ make MACHINE=pic32 MACHINE_ARCH=mips distribution
to generate a file system image in the file distrib/pic32/sdcard.img
for imaging to an SD card, sys/pic32/${BOARD}/unix
ELF-formatted
kernels, and sys/pic32/${BOARD}/unix.hex
Intel HEX-formatted kernels.
Note that using BSD make on a FreeBSD host requires the system makefile
include directory to be specified on the command line or via the
MAKESYSPATH
environment variable. For example:
$ make -m /usr/share/mk
or
$ MAKESYSPATH=/usr/share/mk
$ export MAKESYSPATH
$ make
A DiscoBSD release consists of, for each supported architecture:
- a file system image that contains the full base system
- kernels, in various file formats, for each supported development board
- the README.md file for the architecture
- this README.md file
Before making a release, first create a distribution in DESTDIR
with kernels in sys/${MACHINE}/${BOARD}
by following the steps
in Building:
$ make distribution
Once all the distribution source objects exist then a release can be created; one release for each architecture.
A DiscoBSD/stm32 release, as the default architecture, is created by:
$ make release
A DiscoBSD/pic32 release is created by:
$ make MACHINE=pic32 MACHINE_ARCH=mips release
A DiscoBSD release is created from an already-populated DESTDIR
,
and it is placed in RELEASEDIR
, distrib/obj/releasedir
by default.
Releases are available, for each architecture, as a .tar.gz
gzip-compressed tar archive and as a .zip
zip-compressed archive.
DiscoBSD/stm32 is debugged through OpenOCD and GDB. The make
targets for
debugging are ocd
and gdb-ocd
.
Debug a particular development board via:
$ BOARD=f412gdisco make ocd
in one terminal, and:
$ BOARD=f412gdisco make gdb-ocd
in another terminal.
Port-specific information can be found in distrib/${MACHINE}/README.md
for stm32 and pic32.
bin User utilities in both single and multi-user environments.
distrib System distributions and releases.
etc Templates for system configuration files and scripts in /etc.
games Useful and semi-frivolous programs. The important stuff.
include Standard C include files.
lib System libraries.
libexec System daemons and utilities (executed by other programs).
sbin System administration utilities in both single and
multi-user environments.
share Architecture-independent shared resource data files.
sys Kernel sources.
tools Build tools and simulators.
usr.bin User utilities in multi-user environments.
usr.sbin System administration utilities in multi-user environments.
DiscoBSD 2.3 (F412GDISCO) #1 543: Sun Aug 11 11:11:11 MDT 2024
chris@stm32.discobsd.org:/sys/stm32/f412gdisco
cpu: STM32F412xE/G rev 1/C, 100 MHz, bus 50 MHz
oscillator: phase-locked loop, clock source: high speed external
uart2: pins tx=PA2/rx=PA3, af=7, console
sd0: port sdio0
sd0: type SDHC, size 31178752 kbytes
sd0a: partition type b7, sector 2, size 204800 kbytes
sd0b: partition type b8, sector 409602, size 2048 kbytes
sd0c: partition type b7, sector 413698, size 204800 kbytes
phys mem = 256 kbytes
user mem = 96 kbytes
root dev = (0,1)
swap dev = (0,2)
root size = 204800 kbytes
swap size = 2048 kbytes
Automatic boot in progress: starting file system checks.
/dev/sd0a: 1468 files, 12056 used, 191943 free
/dev/sd0c: 3 files, 3 used, 203996 free
Updating motd... done
Starting daemons: update cron
Sun Aug 11 11:11:11 MDT 2024
2.11 BSD UNIX (name.my.domain) (console)
login: root
Password:
DiscoBSD 2.3 (F412GDISCO) #1 543: Sun Aug 11 11:11:11 MDT 2024
Welcome to DiscoBSD.
erase ^?, kill ^U, intr ^C
#
DiscoBSD 2.3 (MAX32) #1 543: Sun Aug 11 11:11:11 MDT 2024
chris@pic32.discobsd.org:/sys/pic32/max32
cpu: 795F512L 80 MHz, bus 80 MHz
oscillator: HS crystal, PLL div 1:2 mult x20
spi2: pins sdi=RG7/sdo=RG8/sck=RG6
uart1: pins rx=RF2/tx=RF8, interrupts 26/27/28, console
uart2: pins rx=RF4/tx=RF5, interrupts 40/41/42
uart4: pins rx=RD14/tx=RD15, interrupts 67/68/69
sd0: port spi2, pin cs=RC14
gpio0: portA, pins ii---ii-iiiioiii
gpio1: portB, pins iiiiiiiiiiiiiiii
gpio2: portC, pins i-ii-------iiii-
gpio3: portD, pins --iiiiiiiiiiiiii
gpio4: portE, pins ------iiiiiiiiii
gpio5: portF, pins --ii--------i-ii
gpio6: portG, pins iiii--i-----iiii
adc: 15 channels
pwm: 5 channels
sd0: type I, size 524288 kbytes, speed 10 Mbit/sec
sd0a: partition type b7, sector 2, size 204800 kbytes
sd0b: partition type b8, sector 409602, size 2048 kbytes
sd0c: partition type b7, sector 413698, size 204800 kbytes
phys mem = 128 kbytes
user mem = 96 kbytes
root dev = (0,1)
swap dev = (0,2)
root size = 204800 kbytes
swap size = 2048 kbytes
Automatic boot in progress: starting file system checks.
/dev/sd0a: 1474 files, 12346 used, 191653 free
/dev/sd0c: 3 files, 3 used, 203996 free
Updating motd... done
Starting daemons: update cron
Sun Aug 11 11:11:11 MDT 2024
2.11 BSD UNIX (name.my.domain) (console)
login: root
Password:
DiscoBSD 2.3 (MAX32) #1 543: Sun Aug 11 11:11:11 MDT 2024
Welcome to DiscoBSD.
erase ^?, kill ^U, intr ^C
#