Teaclave TrustZone SDK (Rust OP-TEE TrustZone SDK) provides abilities to build safe TrustZone applications in Rust. The SDK is based on the OP-TEE project which follows GlobalPlatform TEE specifications and provides ergonomic APIs. In addition, it enables the capability to write TrustZone applications with Rust's standard library (std) and many third-party libraries (i.e., crates). Teaclave TrustZone SDK is a sub-project of Apache Teaclave (incubating).
Teaclave TrustZone SDK provides two development modes for Rust TAs: no-std
and std
.
We recommend using no-std
by default. For a detailed comparison, please refer
to Comparison.
UPDATES: We have developed a new build environment on the main
branch,
which will now be the only branch for development and maintenance and includes
breaking changes to the legacy master
branch.
If you're using the master
branch and wish to migrate to the new development
branch (main
), please refer to the
migration guide.
- TA Development Modes
- Quick Start with the OP-TEE Repo for QEMUv8
- Getting Started
- Documentation
- Publication
- Contributing
- Community
-
Pros:
- Reuses standard Rust tier-1 toolchain targets (
aarch64-unknown-linux-gnu
,arm-unknown-linux-gnueabihf
). - Significant performance improvements.
- Substantial reduction in binary size.
- Reuses standard Rust tier-1 toolchain targets (
-
Cons:
- Limited support for third-party crates. In the no-std mode, Trusted Applications (TAs) are unable to utilize crates dependent on the standard library (std).
-
Pros:
- Enables the utilization of more third-party crates, including those requiring
std
, such asserde_json
andrustls
, which are essential for functionality.
- Enables the utilization of more third-party crates, including those requiring
-
Cons:
- Manual porting of
std
with infrequent updates. Currently usingstd
version1.56.1
andRust
versionnightly-2021-09-20
. (Planned to update)
- Manual porting of
-
Common: See Overview of OP-TEE Rust Examples.
-
no-std
: Excludestest_serde
,test_tcp_client
,test_udp_socket
,test_message_passing_interface
,test_tls_client
,test_tls_server
.
Teaclave TrustZone SDK has been integrated into the OP-TEE Repo since OP-TEE Release 3.15.0 (18/Oct/21). The aarch64 Rust examples are built and installed into OP-TEE's default filesystem for QEMUv8. Follow this documentation to set up the OP-TEE repo and try the Rust examples!
UPDATES: The no-std
TA has replaced the original std
TAs since OP-TEE
Release 4.1.0 (19/Jan/24).
To get started with Teaclave TrustZone SDK, you could choose either QEMU for Armv8-A (QEMUv8) or other platforms (platforms OP-TEE supported) as your development environment.
The OP-TEE libraries are needed when building Rust applications, so you should finish the Quick start with the OP-TEE Repo for QEMUv8 part first. Then initialize the building environment in Teaclave TrustZone SDK, build Rust applications and copy them into the target's filesystem.
Teaclave TrustZone SDK is located in [YOUR_OPTEE_DIR]/optee_rust/
. Teaclave
TrustZone SDK in OP-TEE repo is pinned to the release version. Alternatively,
you can try the develop version using git pull
:
cd [YOUR_OPTEE_DIR]/optee_rust/
git pull github master
If you are building trusted applications for other platforms (platforms OP-TEE supported). QEMU and the filesystem in the OP-TEE repo are not needed. You can follow these steps to clone the project and build applications independently from the complete OP-TEE repo. In this case, the necessary OP-TEE libraries are initialized in the setup process.
-
The complete list of prerequisites can be found here: OP-TEE Prerequisites.
# install dependencies sudo apt-get install android-tools-adb android-tools-fastboot autoconf \ automake bc bison build-essential ccache cscope curl device-tree-compiler \ expect flex ftp-upload gdisk iasl libattr1-dev libc6:i386 libcap-dev \ libfdt-dev libftdi-dev libglib2.0-dev libhidapi-dev libncurses5-dev \ libpixman-1-dev libssl-dev libstdc++6:i386 libtool libz1:i386 make \ mtools netcat python-crypto python3-crypto python-pyelftools \ python3-pycryptodome python3-pyelftools python-serial python3-serial \ rsync unzip uuid-dev xdg-utils xterm xz-utils zlib1g-dev
Alternatively, you can use a docker container built with our Dockerfile.
-
After installing dependencies or building the Docker image, fetch the source code from the official GitHub repository:
git clone https://github.com/apache/incubator-teaclave-trustzone-sdk.git cd incubator-teaclave-trustzone-sdk
-
Install the Rust environment and toolchains:
./setup.sh
-
Build OP-TEE libraries
By default, the
OPTEE_DIR
isincubator-teaclave-trustzone-sdk/optee/
. OP-TEE submodules (optee_os
andoptee_client
for QEMUv8) will be initialized automatically by executing:./build_optee_libraries.sh optee/
-
Before building applications, set up the configuration:
a. By default, the target platform is
aarch64
for both CA and TA. If you want to build for thearm
target, you can set upARCH
:export ARCH_HOST=arm export ARCH_TA=arm
b. By default, the build is for
no-std
TA. If you want to enablestd
TA, set theSTD
variable:export STD=y
-
Run this script to set up all toolchain and library paths:
source environment
Run this command to build all Rust examples:
make examples
Or build your own CA and TA:
make -C examples/[YOUR_APPLICATION]
Besides, you can collect all example CAs and TAs to
/incubator-teaclave-trustzone-sdk/out
:
make examples-install
Considering the platform has been chosen (QEMUv8 or other), the ways to run the Rust applications are different.
- The shared folder is needed to share CAs and TAs with the QEMU guest system. Recompile QEMU in OP-TEE to enable QEMU VirtFS:
(cd $OPTEE_DIR/build && make QEMU_VIRTFS_ENABLE=y qemu)
- Copy all the Rust examples or your own applications to the shared folder:
mkdir shared_folder
cd [YOUR_OPTEE_DIR]/optee_rust/ && make examples-install)
cp -r [YOUR_OPTEE_DIR]/optee_rust/out/* shared_folder/
- Run QEMU:
(cd $OPTEE_DIR/build && make run-only QEMU_VIRTFS_ENABLE=y
QEMU_VIRTFS_HOST_DIR=$(pwd)/shared_folder)
- After the QEMU has been booted, you need to mount the shared folder in the QEMU guest system (username: root), in order to access the compiled CA/TA from QEMU. Run the command as follows in the QEMU guest terminal:
mkdir shared && mount -t 9p -o trans=virtio host shared
- Then run CA and TA as this documentation describes.
Copy the applications to your platform and run.
In the tests/
directory, we offer comprehensive tests for examples. The
applications can run on a pre-built QEMU image, independently of cloning the
OP-TEE repo. You can compose a simple test here to validate your application.
More details about the design and implementation can be found in our paper published in ACSAC 2020: RusTEE: Developing Memory-Safe ARM TrustZone Applications. Here is the BiBTeX record for your reference.
@inproceedings{wan20rustee,
author = "Shengye Wan and Mingshen Sun and Kun Sun and Ning Zhang and Xu
He",
title = "{RusTEE: Developing Memory-Safe ARM TrustZone Applications}",
booktitle = "Proceedings of the 36th Annual Computer Security Applications
Conference",
series = "ACSAC '20",
year = "2020",
month = "12",
}
Teaclave is open source in The Apache Way, we aim to create a project that is maintained and owned by the community. All kinds of contributions are welcome. Thanks to our contributors.
- Join us on our mailing list.
- Follow us at @ApacheTeaclave.
- See more.