An experimental modular operating system (or unikernel) written in Rust.
ArceOS was inspired a lot by Unikraft.
🚧 Working In Progress.
- Architecture: x86_64, riscv64, aarch64
- Platform: QEMU pc-q35 (x86_64), virt (riscv64/aarch64)
- Multi-thread
- FIFO/RR/CFS scheduler
- VirtIO net/blk/gpu drivers
- TCP/UDP net stack using smoltcp
- Synchronization/Mutex
- SMP scheduling with per-cpu run queue
- File system
- Compatible with Linux apps
- Interrupt driven device I/O
- Async I/O
Install Docker in your system.
Then build all dependencies through provided dockerfile:
docker build -t arceos -f Dockerfile .
Create a container and build/run app:
docker run -it -v $(pwd):/arceos -w /arceos arceos bash
# Now build/run app in the container
make A=examples/helloworld ARCH=aarch64 run
Install cargo-binutils to use rust-objcopy
and rust-objdump
tools:
cargo install cargo-binutils
Install libclang-dev
:
sudo apt install libclang-dev
Download & install musl toolchains:
# download
wget https://musl.cc/aarch64-linux-musl-cross.tgz
wget https://musl.cc/riscv64-linux-musl-cross.tgz
wget https://musl.cc/x86_64-linux-musl-cross.tgz
# install
tar zxf aarch64-linux-musl-cross.tgz
tar zxf riscv64-linux-musl-cross.tgz
tar zxf x86_64-linux-musl-cross.tgz
# exec below command in bash OR add below info in ~/.bashrc
export PATH=`pwd`/x86_64-linux-musl-cross/bin:`pwd`/aarch64-linux-musl-cross/bin:`pwd`/riscv64-linux-musl-cross/bin:$PATH
# for Debian/Ubuntu
sudo apt-get install qemu-system
# for macos
brew install qemu
Other systems and arch please refer to Qemu Download
# build app in arceos directory
make A=path/to/app ARCH=<arch> LOG=<log>
Where path/to/app
is the relative path to the application. Examples applications can be found in the examples directory or the arceos-apps repository.
<arch>
should be one of riscv64
, aarch64
, x86_64
.
<log>
should be one of off
, error
, warn
, info
, debug
, trace
.
More arguments and targets can be found in Makefile.
For example, to run the httpserver on qemu-system-aarch64
with 4 cores and log level info
:
make A=examples/httpserver ARCH=aarch64 LOG=info SMP=4 run NET=y
Note that the NET=y
argument is required to enable the network device in QEMU. These arguments (BLK
, GRAPHIC
, etc.) only take effect at runtime not build time.
You can write and build your custom applications outside the ArceOS source tree. Examples are given below and in the app-helloworld and arceos-apps repositories.
-
Create a new rust package with
no_std
andno_main
environment. -
Add
axstd
dependency and features to enable toCargo.toml
:[dependencies] axstd = { path = "/path/to/arceos/ulib/axstd", features = ["..."] } # or use git repository: # axstd = { git = "https://github.com/arceos-org/arceos.git", features = ["..."] }
-
Call library functions from
axstd
in your code, just like the Rust std library.Remember to annotate the
main
function with#[no_mangle]
(see this example). -
Build your application with ArceOS, by running the
make
command in the application directory:# in app directory make -C /path/to/arceos A=$(pwd) ARCH=<arch> run # more args: LOG=<log> SMP=<smp> NET=[y|n] ...
All arguments and targets are the same as above.
-
Create
axbuild.mk
andfeatures.txt
in your project:app/ ├── foo.c ├── bar.c ├── axbuild.mk # optional, if there is only one `main.c` └── features.txt # optional, if only use default features
-
Add build targets to
axbuild.mk
, add features to enable tofeatures.txt
(see this example):# in axbuild.mk app-objs := foo.o bar.o
# in features.txt alloc paging net
-
Build your application with ArceOS, by running the
make
command in the application directory:# in app directory make -C /path/to/arceos A=$(pwd) ARCH=<arch> run # more args: LOG=<log> SMP=<smp> NET=[y|n] ...
Set the PLATFORM
variable when run make
:
# Build helloworld for raspi4
make PLATFORM=aarch64-raspi4 A=examples/helloworld
You may also need to select the corrsponding device drivers by setting the FEATURES
variable:
# Build the shell app for raspi4, and use the SD card driver
make PLATFORM=aarch64-raspi4 A=examples/shell FEATURES=driver-bcm2835-sdhci
# Build httpserver for the bare-metal x86_64 platform, and use the ixgbe and ramdisk driver
make PLATFORM=x86_64-pc-oslab A=examples/httpserver FEATURES=driver-ixgbe,driver-ramdisk SMP=4
# In Cargo.toml
[dependencies]
axalloc = { git = "https://github.com/arceos-org/arceos.git", tag = "v0.1.0" } # modules/axalloc
axhal = { git = "https://github.com/arceos-org/arceos.git", tag = "v0.1.0" } # modules/axhal