ACE-RISCV is an open-source project, whose goal is to deliver a confidential computing framework with a formally proven security monitor. It is based on the canonical architecture and targets RISC-V with the goal of being portable to other architectures. The formal verification efforts focus on the security monitor implementation. We invite collaborators to work with us to push the boundaries of provable confidential computing technology.
This is an active research project, without warranties of any kind. Please read our paper to learn about the approach and goals.
We are currently building on RISC-V 64-bit with integer, atomic and hypervisor extentions, physical memory protection (PMP), memory management unit (MMU), IOPMP, core-local interrupt controller (CLINT), and supervisor timecmp extension (Sstc). We plan to adapt some of the RISC-V confidential computing extensions, such as the CoVE extension, the Smmtt extension, and the NACL SBI extension.
Follow instructions to run one of the sample confidential workloads under an untrusted Linux KVM hypervisor in an emulated RISC-V environment.
Full compilation of the framework takes a long time because many tools are built from sources. Our toolchain currently includes: a RISC-V emulator (qemu), hypervisor kernel (Linux kernel), and firmware (security monitor with OpenSBI firmware). Make sure to build this project on a machine with at least 4 cores, 4GB RAM, and 50GB disk space for reasonable (~30min) build time.
You must install build dependencies specific to the operating system you use AND install the Rust toolchain. You can also look at the reproducible build configuration of the continous integration (CI) system.
Dependencies for Ubuntu 22.04
sudo apt update
# riscv-gnu-toolchain dependencies:
sudo apt -qq -y install autoconf automake autotools-dev curl python3 libmpc-dev libmpfr-dev libgmp-dev gawk build-essential bison flex texinfo gperf libtool patchutils bc zlib1g-dev libexpat-dev
# OpenSBI
sudo apt -qq -y install clang
# Qemu 8.2
sudo apt -qq -y install git libglib2.0-dev libfdt-dev libpixman-1-dev zlib1g-dev ninja-build python3-venv libslirp-dev
# Buildroot
sudo apt -qq -y install unzip sed binutils diffutils build-essential bash patch gzip bzip2 perl tar cpio unzip rsync file bc findutils
# utilities
sudo apt install -y sshpass
Install the latest Rust:
curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- -y
source "$HOME/.cargo/env"
rustup default nightly
rustup target add riscv64gc-unknown-none-elf
rustup component add rustfmt
cargo install cargo-binutils
# check that the below lines are in the ~/.bashrc
. "$HOME/.cargo/env"
Checkout this repository with submodules (this takes a long time!):
git clone --recurse-submodules git@github.com:IBM/ACE-RISCV.git
Run the following commands from the directory containing this README file.
Set up the ACE_DIR variable to point to the location where the project will build. Default is the build/ subdirectory of the location where you will execute the make command.
export ACE_DIR=/your/path/to/build/ace
The following command will build the entire framework. Set -j flag to the number of processor cores you have in the system. Below command assumes that you have 4 cores.
MAKEFLAGS="--silent -j4" make
Alternativly, you can build individual components to avoid long builds that can lead to 'ssh disconnections', 'hangups', and similar issues.
Install all develoment tools required to compile code for the RISC-V architecture:
make devtools
Build the host OS -- a Linux KVM hypervisor:
make hypervisor
Build the low level firmware responsible for the boot process. This command will also build the security monitor (SM):
make firmware
Build sample confidential workloads:
make confidential_vms
Build the RISC-V emulator and utility tools that simplify running the test environment:
make emulator
Make sure you have the ACE_DIR environmental variable set and it points to the location of your build. Check the 'Compilation' section in case this variable is not set.
echo $ACE_DIR
To run the test environment on a RISC-V emulator run:
${ACE_DIR}/tools/ace run
You should see the output from the boot process and a promt to login to the hypervisor:
# login: root, password: passwd
To run the sample Linux OS as a confidential VM execute:
./run_linux_vm.sh
To run the sample baremetal as a confidential VM execute:
./run_baremetal.sh
This repository is distributed under the terms of the Apache 2.0 License, see LICENSE.
@inproceedings{ozga2023riscvtee,
title={Towards a Formally Verified Security Monitor for VM-based Confidential Computing},
author={Ozga, Wojciech and Hunt, Guerney D. H. and Le, Michael V. and Palmer, Elaine R. and Shinnar, Avraham},
booktitle = {Proceedings of the 12th International Workshop on Hardware and Architectural Support for Security and Privacy},
series = {HASP2023},
year={2023}
}