Welcome to Quark Container.
This repository is the home of Quark Containers code.
Quark Container is high performance secure container runtime with following features:
- OCI compatible: Quark Container includes an Open Container Initiative (OCI) interface. Common Docker container image can run in Quark Container.
- Secure: It provides Virtual Machine level workload isolation and security.
- High Performance: Quark Container is born for container workload execution with high performance. It is developed with the Rust programming language.
The performance slices is performance.pdf. The detail test steps and result is here
Quark Container takes classic Linux Virtual Machine architecture as below. It includes an HyperVisor named QVisor and a guest kernel named QKernel. Unlike the common Linux Virtual Machine design, in which standard OS image such as Linux/Windows can run on Qemu. QVisor and QKernel are tightly coupled. QVisor only supports QKernel.
Quark Container's high level design is as below. It handles Container Application request with following steps.
- Container Application System Call: In Quark Container, Container Application run as a Guest Application. And it sends request to Quark through Guest System Call, e.g. X86-64 SysCall/SysRet.
- Host System Call: From Host OS perspective, Quark is running as a common Linux application. When Quark gets Guest System Call, it will explained that in the Quark runtime. If it needs to access the host system, e.g. read host file, it will call Host OS through Host System Call.
- QCall: For the communication between Guest Space and Host Space, QKernel doesn't call QVisor through HyperCall directly as common Virtual Machine design. Instead, it sends request to QVisor through QCall, which is based on Share memory queue. There is a dedicated QCall handing thread waiting in Host Space to process QCall request. Based on that, VCPU thread's high cost Guest/Host switch is avoid. For the host IO data operation, such as socket read/write, Qkernel will call the Host Kernel directly with IO-Uring, which could bypass QVisor to achieve better performance. (Note: IO-Uring won't handle IO control operation, such as Open, for security purpose)
Quark Container supports to transfer the container application's TCP traffic with RDMA connection, i.e. TSoR. TSoR is a container network provider in K8S cluster and the existing TCP based container application can transfer data through RDMA without ANY modification. As TSoR offloads the TCP/IP protocol stack workload to RDMA NIC. It can achieve higher throughput, low latency with less CPU footprint. The TSOR test result is the Redis benchmark test result with comparison between Quark + TSoR and RunC + Flannel. TSoR shows 5 times throughput improvement over Flannel. The TSoR architecture is as below. The introduction is here
- OS: Linux Kernel > 5.8.0
- Processor: X86-64/Amd64 or aarch64 (see notes below).
- Docker: > 17.09.0
- Enable virtualization technology in BIOS (Usually in Security tab of BIOS)
Quark primarily supports X86-64. aarch64 support is preliminary and under active development. Other architecture will be available in the future.
Quark is developed with Rust language. The build needs to install Rust nightly.
Please use current known good version
nightly-2023-12-11-x86_64-unknown-linux-gnu
(replace x86_64
with aarch64
for the aarch64 build)
rustup toolchain install nightly-2023-12-11-x86_64-unknown-linux-gnu
rustup default nightly-2023-12-11-x86_64-unknown-linux-gnu
Add the rust-src component to the current toolchain:
rustup component add rust-src
And install "cargo-xbuild" for qkernel cross compilation
cargo install cargo-xbuild
Install libcap library
sudo apt-get install libcap-dev
Also, some extra libraries for compiling RDMA module:
sudo apt-get install build-essential cmake gcc libudev-dev libnl-3-dev \
libnl-route-3-dev ninja-build pkg-config valgrind python3-dev cython3 \
python3-docutils pandoc libclang-dev
And also some extra libraries for compiling GPU module:
(Please note, you can execute following commands even in non nvidia machine to
get ability for compiling GPU module.)
sudo apt-get install libelf-dev nvidia-driver-535
git clone [email protected]:QuarkContainer/Quark.git
cd Quark
make
make install
make cuda_all
make install
- Install binary: Quark has 2 binaries: "quark" and "qkernel.bin". Both of them
was copied to /usr/local/bin/ folder when running
make install
. "quark" contains QVisor code and it also implement the OCI interface. - Setup Docker: To enable Docker to run container with Quark Container, "/etc/docker/daemon.json" needs to be updated. Example is as daemon.json
- Create log folder
sudo mkdir /var/log/quark
- Restart Docker: After the "/etc/docker/daemon.json" is updated, The Docker
daemon restart is need to enable the configuration change
sudo systemctl restart docker
The hello-world docker sample application can be executed as below:
sudo systemctl restart docker
sudo systemctl restart docker.service
docker run --rm --runtime=quark hello-world
Quark Container's configuration file is at /etc/quark/config.json . Configuration detail is TBD...
Quark Container's debug log is put in /var/log/quark/quark.log. It could enable or disable by "DebugLevel" of /etc/quark/config.json. There are 5 possible value of "DebugLevel" as below.
Off,
Error,
Warn,
Info,
Debug,
Trace,
When log is enabled, e.g. Debug. After run a docker image with Quark Container, the logs will be generated in the /var/log/quark/quark.log. See the wiki for further debugging tips.
Please refer to this link to set up k8s using quark container and RDMA support.
Quark now has preliminary aarch64 support (still under active development).
Notes on newer arm64 architectures:
newer arm64 architectures add PAN (Privilege Access Never) bit in the pstate which prevents the kernel (el1) from accessing user (el0) memory. Full support is WIP. As a temporary workaround we simply clear the PAN in the qkernel. To do this, you need to manually apply this patch
- use the Quark mailing list by
simply sending emails to
~quark/[email protected]
. To subscribe to the list, send an empty email to~quark/[email protected]
To learn more about using mailinglist, see the Mailing list etiquette. - there is also a Slack channel