Contents
- Introduction
- Installation
The Intel SGX device plugin and related components allow workloads to use Intel SGX on platforms with SGX Flexible Launch Control enabled, e.g.,:
- 3rd Generation Intel® Xeon® Scalable Platform, code-named “Ice Lake”
- Intel® Xeon® E3
- Intel® NUC Kit NUC7CJYH
The SGX solution comes in three parts:
This README covers setting up all three components.
The SGX plugin can take a number of command line arguments, summarised in the following table:
| Flag | Argument | Meaning |
|---|---|---|
| -enclave-limit | int | the number of containers per worker node allowed to use /dev/sgx_enclave device node (default: 20) |
| -provision-limit | int | the number of containers per worker node allowed to use /dev/sgx_provision device node (default: 20) |
The plugin also accepts a number of other arguments related to logging. Please use the -h option to see
the complete list of logging related options.
The following sections cover how to obtain, build and install the necessary Kubernetes SGX specific components.
They can be installed either using a DaemonSet or running 'by hand' on each node.
The component has the same basic dependancies as the generic plugin framework dependencies.
The SGX device plugin requires Linux Kernel SGX drivers to be available. These drivers are available in Linux 5.11. The SGX DCAP out-of-tree driver v1.41 is also known to work.
The hardware platform must support SGX Flexible Launch Control.
Pre-built images are available on Docker Hub. These images are automatically built and uploaded to the hub from the latest main branch of this repository.
Release tagged images of the components are also available on Docker Hub, tagged with their
release version numbers in the format x.y.z, corresponding to the branches and releases in this
repository. Thus the easiest way to deploy Intel SGX components in your cluster is to follow the steps
below.
The deployment YAML files supplied with the components in this repository use the images with the devel
tag by default. If you do not build your own local images, your Kubernetes cluster may pull down
the devel images from Docker Hub by default.
<RELEASE_VERSION> needs to be substituted with the desired release version, e.g. v0.19.0 or main.
$ kubectl apply -k https://github.com/intel/intel-device-plugins-for-kubernetes/deployments/nfd/overlays/sgx?ref=<RELEASE_VERSION>
$ kubectl apply -k https://github.com/intel/intel-device-plugins-for-kubernetes/deployments/nfd/overlays/node-feature-rules?ref=<RELEASE_VERSION>Note: The default configuration assumes that the in-tree driver is used and enabled (CONFIG_X86_SGX=y). If
the SGX DCAP out-of-tree driver is used, the kernel.config match expression in must be removed.
$ kubectl apply -k https://github.com/intel/intel-device-plugins-for-kubernetes/deployments/operator/default?ref=<RELEASE_VERSION>Note: See the operator deployment details for its dependencies and for setting it up on systems behind proxies.
$ kubectl apply -f https://raw.githubusercontent.com/intel/intel-device-plugins-for-kubernetes/<RELEASE_VERSION>/deployments/operator/samples/deviceplugin_v1_sgxdeviceplugin.yaml$ export INTEL_DEVICE_PLUGINS_SRC=/path/to/intel-device-plugins-for-kubernetes
$ git clone https://github.com/intel/intel-device-plugins-for-kubernetes ${INTEL_DEVICE_PLUGINS_SRC}The SGX deployment documented here depends on having cert-manager installed. See its installation instructions here.
You also need to build a container image for the plugin and ensure that is visible to your nodes.
The following will use docker to build a local container images called intel/intel-sgx-plugin
and intel/intel-sgx-initcontainer with the tag devel. The image build tool can be changed from the
default docker by setting the BUILDER argument to the Makefile.
$ cd ${INTEL_DEVICE_PLUGINS_SRC}
$ make intel-sgx-plugin
...
Successfully tagged intel/intel-sgx-plugin:devel
$ make intel-sgx-initcontainer
...
Successfully tagged intel/intel-sgx-initcontainer:develThere are two alternative ways to deploy SGX device plugin.
The first approach involves deployment of the SGX DaemonSet YAML and node-feature-discovery with the necessary configuration.
There is a kustomization for deploying everything:
$ kubectl apply -k ${INTEL_DEVICE_PLUGINS_SRC}/deployments/sgx_plugin/overlays/epc-nfd/The second approach has a lesser deployment footprint. It does not deploy NFD, but a helper daemonset that creates sgx.intel.com/capable='true' node label and advertises EPC capacity to the API server.
The following kustomization is used for this approach:
$ kubectl apply -k ${INTEL_DEVICE_PLUGINS_SRC}/deployments/sgx_plugin/overlays/epc-register/Verification of the plugin deployment and detection of SGX hardware can be confirmed by examining the resource allocations on the nodes:
$ kubectl describe node <node name> | grep sgx.intel.com
nfd.node.kubernetes.io/extended-resources: sgx.intel.com/epc
sgx.intel.com/enclave: 20
sgx.intel.com/epc: 98566144
sgx.intel.com/provision: 20
sgx.intel.com/enclave: 20
sgx.intel.com/epc: 98566144
sgx.intel.com/provision: 20
sgx.intel.com/enclave 1 1
sgx.intel.com/epc 400 400
sgx.intel.com/provision 1 1For development purposes, it is sometimes convenient to deploy the plugin 'by hand' on a node. In this case, you do not need to build the complete container image, and can build just the plugin.
$ cd ${INTEL_DEVICE_PLUGINS_SRC}
$ make sgx_pluginDeploy the plugin on a node by running it as root. The below is just an example - modify the
paramaters as necessary for your setup:
$ sudo -E ${INTEL_DEVICE_PLUGINS_SRC}/cmd/sgx_plugin/sgx_plugin -enclave-limit 50 -provision-limit 1 -v 2
I0626 20:33:01.414446 964346 server.go:219] Start server for provision at: /var/lib/kubelet/device-plugins/sgx.intel.com-provision.sock
I0626 20:33:01.414640 964346 server.go:219] Start server for enclave at: /var/lib/kubelet/device-plugins/sgx.intel.com-enclave.sock
I0626 20:33:01.417315 964346 server.go:237] Device plugin for provision registered
I0626 20:33:01.417748 964346 server.go:237] Device plugin for enclave registeredThe SGX remote attestation allows a relying party to verify that the software is running inside an Intel® SGX enclave on a platform that has the trusted computing base up to date.
The demo guides to run an SGX DCAP/ECDSA quote generation in on a single-node kubernetes cluster using Intel® reference SGX PCK Certificate Cache Service (PCCS) that is configured to service localhost connections.
Read more about SGX Remote Attestation.
For the SGX ECDSA Remote Attestation demo to work, the platform must be correctly registered and a PCCS running.
For documentation to set up Intel® reference PCCS, refer to: Intel® Software Guard Extensions (Intel® SGX) Services and Intel® Software Guard Extensions SDK for Linux
Furthermore, the Kubernetes cluster must be set up according the instructions above.
The demo uses container images build from Intel® SGX SDK and DCAP releases.
To build the demo images:
$ cd ${INTEL_DEVICE_PLUGINS_SRC}
$ make sgx-aesmd-demo
...
Successfully tagged intel/sgx-aesmd-demo:devel
$ make sgx-sdk-demo
...
Successfully tagged intel/sgx-sdk-demo:develThe demo runs Intel aesmd (architectural enclaves service daemon) that is responsible
for generating SGX quotes for workloads. It is deployed with hostNetwork: true
to allow connections to localhost PCCS.
$ kubectl apply -k https://github.com/intel/intel-device-plugins-for-kubernetes/deployments/sgx_aesmd?ref=<RELEASE_VERSION>
$ kubectl get pods
NAME READY STATUS RESTARTS AGE
intel-sgx-aesmd-mrnm8 1/1 Running 0 3h47m
sgxdeviceplugin-sample-z5dcq-llwlw 1/1 Running 0 28mNote: For quick experiments, kind can be used to deploy the cluster. With
kind, host path/var/run/aesmd/must be mounted to the nodes manually using Extra Mounts.
Example:$ cat kind_config.yaml kind: Cluster apiVersion: kind.x-k8s.io/v1alpha4 name: <your_node_name> nodes: - role: control-plane extraMounts: - hostPath: /var/run/aesmd containerPath: /var/run/aesmd propagation: BidirectionalAnd bootstrap kind with it
$ kind create cluster --config kind_config.yaml
The sample application runs SGX DCAP Quote Generation sample:
$ kubectl apply -k https://github.com/intel/intel-device-plugins-for-kubernetes/deployments/sgx_enclave_apps/overlays/sgx_ecdsa_aesmd_quote?ref=<RELEASE_VERSION>
$ kubectl get pods
NAME READY STATUS RESTARTS AGE
intel-sgx-aesmd-mrnm8 1/1 Running 0 3h55m
ecdsa-quote-intelsgx-demo-job-vtq84 0/1 Completed 0 4s
sgxdeviceplugin-sample-z5dcq-llwlw 1/1 Running 0 35m
$ kubectl logs ecdsa-quote-intelsgx-demo-job-vtq84
Step1: Call sgx_qe_get_target_info:succeed!
Step2: Call create_app_report:succeed!
Step3: Call sgx_qe_get_quote_size:succeed!
Step4: Call sgx_qe_get_quote:succeed!cert_key_type = 0x5Note: The deployment example above uses kustomize that is available in kubectl since Kubernetes v1.14 release.