constellation/image
2023-03-06 13:29:15 +01:00
..
measured-boot ci: generate signed measurements for QEMU 2023-01-12 13:24:07 +01:00
mkosi.cache Move mkosi folder to old image folder location 2022-10-21 11:04:25 +02:00
mkosi.conf.d Downgrade azure kernel to 5.19.4 (#862) 2023-01-04 17:48:27 +01:00
mkosi.files image: set attestation variant on kernel cmdline (#1323) 2023-03-02 12:20:10 +01:00
mkosi.reposdir Add AWS nvme udev rules (#351) 2022-10-21 14:55:13 +02:00
mkosi.skeleton image: set attestation variant on kernel cmdline (#1323) 2023-03-02 12:20:10 +01:00
pki_prod CI: Add secure boot prod keys (#462) 2022-11-04 16:48:52 +01:00
pki_testing Move mkosi folder to old image folder location 2022-10-21 11:04:25 +02:00
secure-boot image: pin aws uefivars version and install new deps (#1345) 2023-03-06 13:29:15 +01:00
upload cli: add basic support for constellation create on OpenStack (#1283) 2023-02-27 18:19:52 +01:00
.gitignore OS Image Build pipeline: prepare lookup tables and additional artifacts (#560) 2022-11-16 15:45:10 +01:00
Makefile cli: add basic support for constellation create on OpenStack (#1283) 2023-02-27 18:19:52 +01:00
mkosi.finalize Preinstall kubelet systemd unit in OS images (#365) 2022-10-25 16:36:03 +02:00
mkosi.postinst image: fix shell code format 2023-01-16 14:49:33 +01:00
mkosi.prepare image: setup debugd as a separate systemd unit 2023-01-25 09:58:56 +01:00
README.md cli: add basic support for constellation create on OpenStack (#1283) 2023-02-27 18:19:52 +01:00

Setup

  • Install mkosi (from git):

    cd /tmp/
    git clone https://github.com/systemd/mkosi
    cd mkosi
    tools/generate-zipapp.sh
    cp builddir/mkosi /usr/local/bin/
    
  • Install tools:

    Ubuntu / Debian
    sudo apt-get update
    sudo apt-get install --assume-yes --no-install-recommends \
        dnf \
        systemd-container \
        qemu-system-x86 \
        qemu-utils \
        ovmf \
        e2fsprogs \
        squashfs-tools \
        efitools \
        sbsigntool \
        coreutils \
        curl \
        jq \
        util-linux \
        virt-manager \
        python3-crc32c \
        rpm
    
    Fedora
    sudo dnf install -y \
        edk2-ovmf \
        systemd-container \
        qemu \
        e2fsprogs \
        squashfs-tools \
        efitools \
        sbsigntools \
        coreutils \
        curl \
        jq \
        util-linux \
        virt-manager
    
  • Prepare secure boot PKI (see secure-boot/genkeys.sh)

Build

When building your first image, prepare the secure boot PKI (see secure-boot/genkeys.sh) for self-signed, locally built images.

After that, you can build the image with:

# OPTIONAL: to create a debug image, export the following line
# export DEBUG=true
# OPTIONAL: to enable the serial console, export the following line
# export AUTOLOGIN=true
# OPTIONAL: symlink custom path to secure boot PKI to ./pki
# ln -s /path/to/pki/folder ./pki
sudo make -j $(nproc)

Raw images will be placed in mkosi.output.<CSP>/fedora~37/image.raw.

Prepare Secure Boot

The generated images are partially signed by Microsoft (shim loader), and partially signed by Edgeless Systems (systemd-boot and unified kernel images consisting of the linux kernel, initramfs and kernel commandline).

For QEMU and Azure, you can pre-generate the NVRAM variables for secure boot. This is not necessary for GCP, as you can specify secure boot parameters via the GCP API on image creation.

libvirt / QEMU / KVM
secure-boot/generate_nvram_vars.sh mkosi.output.qemu/fedora~37/image.raw
Azure

These steps only have to performed once for a fresh set of secure boot certificates. VMGS blobs for testing and release images already exist.

First, create a disk without embedded MOK EFI variables.

# set these variables
export AZURE_SECURITY_TYPE=ConfidentialVM # or TrustedLaunch
export AZURE_RESOURCE_GROUP_NAME= # e.g. "constellation-images"

export AZURE_REGION=northeurope
export AZURE_REPLICATION_REGIONS=
export AZURE_DISK_NAME=constellation-$(date +%s)
export AZURE_SNAPSHOT_NAME=${AZURE_DISK_NAME}
export AZURE_RAW_IMAGE_PATH=${PWD}/mkosi.output.azure/fedora~37/image.raw
export AZURE_IMAGE_PATH=${PWD}/mkosi.output.azure/fedora~37/image.vhd
export AZURE_VMGS_FILENAME=${AZURE_SECURITY_TYPE}.vmgs
export AZURE_JSON_OUTPUT=${PWD}/mkosi.output.azure/fedora~37/image-upload.json
export BLOBS_DIR=${PWD}/blobs
upload/pack.sh azure "${AZURE_RAW_IMAGE_PATH}" "${AZURE_IMAGE_PATH}"
upload/upload_azure.sh --disk-name "${AZURE_DISK_NAME}-setup-secure-boot" ""
secure-boot/azure/launch.sh -n "${AZURE_DISK_NAME}-setup-secure-boot" -d --secure-boot true --disk-name "${AZURE_DISK_NAME}-setup-secure-boot"

Ignore the running launch script and connect to the serial console once available. The console shows the message "Verification failed: (0x1A) Security Violation". You can import the MOK certificate via the UEFI shell:

Press OK, then ENTER, then "Enroll key from disk". Select the following key: /EFI/loader/keys/auto/db.cer. Press Continue, then choose "Yes" to the question "Enroll the key(s)?". Choose reboot.

Extract the VMGS from the running VM (this includes the MOK EFI variables) and delete the VM:

secure-boot/azure/extract_vmgs.sh --name "${AZURE_DISK_NAME}-setup-secure-boot"
secure-boot/azure/delete.sh --name "${AZURE_DISK_NAME}-setup-secure-boot"

Upload to CSP

AWS
  • Install aws cli (see here)
  • Login to AWS (see here)
  • Choose secure boot PKI public keys (one of pki_dev, pki_test, pki_prod)
    • pki_dev can be used for local image builds
    • pki_test is used by the CI for non-release images
    • pki_prod is used for release images
# set these variables
export AWS_IMAGE_NAME= # e.g. "constellation-v1.0.0"
export PKI=${PWD}/pki

export AWS_REGION=eu-central-1
export AWS_REPLICATION_REGIONS="us-east-2"
export AWS_BUCKET=constellation-images
export AWS_EFIVARS_PATH=${PWD}/mkosi.output.aws/fedora~37/efivars.bin
export AWS_IMAGE_PATH=${PWD}/mkosi.output.aws/fedora~37/image.raw
export AWS_IMAGE_FILENAME=image-$(date +%s).raw
export AWS_JSON_OUTPUT=${PWD}/mkosi.output.aws/fedora~37/image-upload.json
secure-boot/aws/create_uefivars.sh "${AWS_EFIVARS_PATH}"
upload/upload_aws.sh
GCP
  • Install gcloud and gsutil (see here)
  • Login to GCP (see here)
  • Choose secure boot PKI public keys (one of pki_dev, pki_test, pki_prod)
    • pki_dev can be used for local image builds
    • pki_test is used by the CI for non-release images
    • pki_prod is used for release images
# set these variables
export GCP_IMAGE_FAMILY= # e.g. "constellation"
export GCP_IMAGE_NAME= # e.g. "constellation-v1.0.0"
export PKI=${PWD}/pki

export GCP_PROJECT=constellation-images
export GCP_REGION=europe-west3
export GCP_BUCKET=constellation-images
export GCP_RAW_IMAGE_PATH=${PWD}/mkosi.output.gcp/fedora~37/image.raw
export GCP_IMAGE_FILENAME=$(date +%s).tar.gz
export GCP_IMAGE_PATH=${PWD}/mkosi.output.gcp/fedora~37/image.tar.gz
export GCP_JSON_OUTPUT=${PWD}/mkosi.output.gcp/fedora~37/image-upload.json
upload/pack.sh gcp ${GCP_RAW_IMAGE_PATH} ${GCP_IMAGE_PATH}
upload/upload_gcp.sh
Azure

Note:

For testing purposes, it is a lot simpler to disable Secure Boot for the uploaded image! Disabling Secure Boot allows you to skip the VMGS creation steps above.

# set these variables
export AZURE_GALLERY_NAME= # e.g. "Constellation"
export AZURE_IMAGE_DEFINITION= # e.g. "constellation"
export AZURE_IMAGE_VERSION= # e.g. "1.0.0"
# Set this variable to a path if you want to use Secure Boot.
# Otherwise, set it to export AZURE_VMGS_PATH=
export AZURE_VMGS_PATH= # e.g. nothing OR "path/to/ConfidentialVM.vmgs"
# AZURE_SECURITY_TYPE can be one of
# - "ConfidentialVMSupported" (ConfidentialVM with secure boot disabled),
# - "ConfidentialVM" (ConfidentialVM with Secure Boot) or
# - TrustedLaunch" (Trusted Launch with or without Secure Boot)
export AZURE_SECURITY_TYPE=ConfidentialVMSupported

export AZURE_RESOURCE_GROUP_NAME=constellation-images
export AZURE_REGION=northeurope
export AZURE_REPLICATION_REGIONS="northeurope eastus westeurope westus"
export AZURE_IMAGE_OFFER=constellation
export AZURE_SKU=${AZURE_IMAGE_DEFINITION}
export AZURE_PUBLISHER=edgelesssys
export AZURE_DISK_NAME=constellation-$(date +%s)
export AZURE_RAW_IMAGE_PATH=${PWD}/mkosi.output.azure/fedora~37/image.raw
export AZURE_IMAGE_PATH=${PWD}/mkosi.output.azure/fedora~37/image.vhd
export AZURE_JSON_OUTPUT=${PWD}/mkosi.output.azure/fedora~37/image-upload.json
upload/pack.sh azure "${AZURE_RAW_IMAGE_PATH}" "${AZURE_IMAGE_PATH}"
upload/upload_azure.sh -g --disk-name "${AZURE_DISK_NAME}" "${AZURE_VMGS_PATH}"
OpenStack

Note:

OpenStack is not one a global cloud provider, but rather a software that can be installed on-premises. This means we do not upload the image to a cloud provider, but to our CDN.

  • Install aws cli (see here)
  • Login to AWS (see here)
# set these variables
export REF= # e.g. feat-xyz (branch name encoded with dashes)
export STREAM= # e.g. "nightly", "debug", "stable" (depends on the type of image and if it is a release)
export IMAGE_VERSION= # e.g. v2.1.0" or output of pseudo-version tool
export OPENSTACK_BUCKET=cdn-constellation-backend
export OPENSTACK_BASE_URL="https://cdn.confidential.cloud"
export OPENSTACK_IMAGE_PATH=${PWD}/mkosi.output.qemu/fedora~37/image.raw
export OPENSTACK_JSON_OUTPUT=${PWD}/mkosi.output.qemu/fedora~37/image-upload.json
upload/upload_openstack.sh
QEMU
  • Install aws cli (see here)
  • Login to AWS (see here)
# set these variables
export REF= # e.g. feat-xyz (branch name encoded with dashes)
export STREAM= # e.g. "nightly", "debug", "stable" (depends on the type of image and if it is a release)
export IMAGE_VERSION= # e.g. v2.1.0" or output of pseudo-version tool
export QEMU_BUCKET=cdn-constellation-backend
export QEMU_BASE_URL="https://cdn.confidential.cloud"
export QEMU_IMAGE_PATH=${PWD}/mkosi.output.qemu/fedora~37/image.raw
export QEMU_JSON_OUTPUT=${PWD}/mkosi.output.qemu/fedora~37/image-upload.json
upload/upload_qemu.sh