The files in this directory are used to implement a skeleton enclave runtime in order to help to write your own enclave runtime. Note that this code base is inspired by [v28 SGX in-tree driver](https://patchwork.kernel.org/patch/11418925/). --- # Run skeleton with Docker ## Install sgx-tools Refer to [this guide](https://github.com/alibaba/inclavare-containers/tree/master/sgx-tools/README.md). Note that this step is only required when using SGX out-of-tree driver. ## Build liberpal-skeleton ```shell cd "${path_to_inclavare_containers}/rune/libenclave/internal/runtime/pal/skeleton" make cp liberpal-skeleton-v*.so /usr/lib ``` ## Build skeleton container image ```shell cd "${path_to_inclavare_containers}/rune/libenclave/internal/runtime/pal/skeleton" cat >Dockerfile < e.g. `sudo systemctl restart docker` for CentOS, or `sudo service docker restart` for Ubuntu You can check whether `rune` is correctly picked as supported OCI runtime or not with ```shell docker info | grep rune Runtimes: rune runc ``` ## Run skeleton container image with rune Note that replace `${SKELETON_PAL_VERSION}` with the actual version number. Currently skeleton supports PAL API v1 and v2. ```shell docker run -it --rm --runtime=rune \ -e ENCLAVE_TYPE=intelSgx \ -e ENCLAVE_RUNTIME_PATH=/usr/lib/liberpal-skeleton-v${SKELETON_PAL_VERSION}.so \ -e ENCLAVE_RUNTIME_ARGS="debug" \ skeleton-enclave ``` where: - @ENCLAVE_TYPE: specify the type of enclave hardware to use, such as `intelSgx`. - @ENCLAVE_PATH: specify the path to enclave runtime to launch. - @ENCLAVE_ARGS: specify the specific arguments to enclave runtime, seperated by the comma. --- # Run skeleton OCI bundle Note: The following method to launch skeleton with `rune` is usually provided for developmemt purpose. ## Create skeleton bundle In order to use `rune` you must have your container image in the format of an OCI bundle. If you have Docker installed you can use its `export` method to acquire a root filesystem from an existing skeleton Docker container image. ```shell # create the top most bundle directory cd "$HOME/rune_workdir" mkdir rune-container cd rune-container # create the rootfs directory mkdir rootfs # export skeleton image via Docker into the rootfs directory docker export $(docker create skeleton-enclave) | sudo tar -C rootfs -xvf - ``` After a root filesystem is populated you just generate a spec in the format of a config.json file inside your bundle. `rune` provides a spec command which is similar to `runc` to generate a template file that you are then able to edit. ```shell rune spec ``` To find features and documentation for fields in the spec please refer to the [specs](https://github.com/opencontainers/runtime-spec) repository. In order to run the skeleton bundle with `rune`, you need to configure enclave runtime as following: ```json "annotations": { "enclave.type": "intelSgx", "enclave.runtime.path": "/usr/lib/liberpal-skeleton-v${SKELETON_PAL_VERSION}.so", "enclave.runtime.args": "debug" } ``` where: - @enclave.type: specify the type of enclave hardware to use, such as intelSgx. - @enclave.runtime.path: specify the path to enclave runtime to launch. - @enclave.runtime.args: specify the specific arguments to enclave runtime, seperated by the comma. ## Run skeleton Assuming you have an OCI bundle from the previous step you can execute the container in this way. ```shell cd "$HOME/rune_workdir/rune-container" sudo rune run skeleton-enclave-container ```