51d8bfddbe
Signed-off-by: Daniel Weiße <dw@edgeless.systems> |
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.github/workflows | ||
cli | ||
conformance | ||
coordinator | ||
debugd | ||
image | ||
internal | ||
kms | ||
mount | ||
proto | ||
state | ||
test | ||
util | ||
.dockerignore | ||
.gitignore | ||
.golangci.yml | ||
CMakeLists.txt | ||
CONTRIBUTING.md | ||
Dockerfile.build | ||
Dockerfile.e2e | ||
go.mod | ||
go.sum | ||
README.md |
constellation-coordinator
Prerequisites
- Go 1.18
Ubuntu 20.04
sudo apt install build-essential cmake libssl-dev pkg-config libcryptsetup12 libcryptsetup-dev
Build
mkdir build
cd build
cmake ..
make -j`nproc`
Cloud credentials
Using the CLI or debug-CLI requires the user to make authorized API calls to the AWS or GCP API.
Google Cloud Platform (GCP)
If you are running from within a Google VM, and the VM is allowed to access the necessary APIs, no further configuration is needed.
Otherwise you have a couple options:
-
Use the
gcloud
CLI toolgcloud auth application-default login
This will ask you to log into your Google account, and then create your credentials. The Constellation CLI will automatically load these credentials when needed.
-
Set up a service account and pass the credentials manually
Follow Google's guide for setting up your credentials.
Amazon Web Services (AWS)
To use the CLI with an Constellation cluster on AWS configure the following files:
$ cat ~/.aws/credentials
[default]
aws_access_key_id = XXXXX
aws_secret_access_key = XXXXX
$ cat ~/.aws/config
[default]
region = us-east-2
Azure
To use the CLI with an Constellation cluster on Azure execute:
az login
Deploying a locally compiled coordinator binary
By default, constellation create ...
will spawn cloud provider instances with a pre-baked coordinator binary.
For testing, you can use the constellation debug daemon (debugd) to upload your local coordinator binary to running instances and to obtain SSH access.
Follow this introduction on how to install and setup cdbg
debug daemon (debugd)
debugd Prerequisites
- Go 1.18
Build debugd
mkdir -p build
go build -o build/debugd debugd/debugd/cmd/debugd/debugd.go
Build & install cdbg
The go install command for cdbg only works inside the checked out repository due to replace directives in the go.mod
file.
git clone https://github.com/edgelesssys/constellation && cd constellation
go install github.com/edgelesssys/constellation/debugd/cdbg
debugd & cdbg usage
With cdbg
installed in your path:
- Run
constellation --dev-config /path/to/dev-config create […]
while specifying a cloud-provider image with the debugd already included. See Configuration for a dev-config with a custom image and firewall rules to allow incoming connection on the debugd default port 4000. - Run
cdbg deploy --dev-config /path/to/dev-config
- Run
constellation init […]
as usual
debugd GCP image
For GCP, run the following command to get a list of all constellation images, sorted by their creation date:
gcloud compute images list --filter="name~'constellation-.+'" --sort-by=~creationTimestamp
Choose the newest debugd image with the naming scheme constellation-coreos-debugd-<timestamp>
.
debugd Azure Image
For Azure, run the following command to get a list of all constellation debugd images, sorted by their creation date:
az sig image-version list --resource-group constellation-images --gallery-name Constellation --gallery-image-definition constellation-coreos-debugd --query "sort_by([], &publishingProfile.publishedDate)[].id" -o table
Choose the newest debugd image and copy the full URI.
debugd Configuration
You should first locate the newest debugd image for your cloud provider (GCP, Azure).
This tool uses the dev-config file from constellation-coordinator
and extends it with more fields.
See this example on what the possible settings are and how to setup the constellation cli to use a cloud-provider image and firewall rules with support for debugd:
{
"cdbg":{
"authorized_keys":[
{
"user":"my-username",
"pubkey":"ssh-rsa AAAAB…LJuM="
}
],
"coordinator_path":"/path/to/coordinator",
"systemd_units":[
{
"name":"some-custom.service",
"contents":"[Unit]\nDescription=…"
}
]
},
"provider": {
"gcpconfig": {
"image": "constellation-coreos-debugd-TIMESTAMP",
"firewallinput": {
"Ingress": [
{
"Name": "coordinator",
"Description": "Coordinator default port",
"Protocol": "tcp",
"FromPort": 9000
},
{
"Name": "wireguard",
"Description": "WireGuard default port",
"Protocol": "udp",
"FromPort": 51820
},
{
"Name": "ssh",
"Description": "SSH",
"Protocol": "tcp",
"FromPort": 22
},
{
"Name": "nodeport",
"Description": "NodePort",
"Protocol": "tcp",
"FromPort": 30000,
"ToPort": 32767
},
{
"Name": "debugd",
"Description": "debugd default port",
"Protocol": "tcp",
"FromPort": 4000
}
]
}
},
"azureconfig": {
"image": "/subscriptions/0d202bbb-4fa7-4af8-8125-58c269a05435/resourceGroups/CONSTELLATION-IMAGES/providers/Microsoft.Compute/galleries/Constellation/images/constellation-coreos-debugd/versions/0.0.TIMESTAMP",
"networksecuritygroupinput": {
"Ingress": [
{
"Name": "coordinator",
"Description": "Coordinator default port",
"Protocol": "tcp",
"IPRange": "0.0.0.0/0",
"FromPort": 9000
},
{
"Name": "wireguard",
"Description": "WireGuard default port",
"Protocol": "udp",
"IPRange": "0.0.0.0/0",
"FromPort": 51820
},
{
"Name": "ssh",
"Description": "SSH",
"Protocol": "tcp",
"IPRange": "0.0.0.0/0",
"FromPort": 22
},
{
"Name": "nodeport",
"Description": "NodePort",
"Protocol": "tcp",
"IPRange": "0.0.0.0/0",
"FromPort": 30000,
"ToPort": 32767
},
{
"Name": "debugd",
"Description": "debugd default port",
"Protocol": "tcp",
"IPRange": "0.0.0.0/0",
"FromPort": 4000
}
]
}
}
}
}
Local image testing with QEMU
To build our images we use the CoreOS-Assembler (COSA).
COSA comes with support to test images locally. After building your image with make coreos
you can run the image with make run
.
Our fork adds extra utility by providing scripts to run an image in QEMU with a vTPM attached, or boot multiple VMs to simulate your own local Constellation cluster.
Begin by starting a COSA docker container
docker run -it --rm \
--entrypoint bash \
--device /dev/kvm \
--device /dev/net/tun \
--privileged \
-v </path/to/constellation-image.qcow2>:/constellation-image.qcow2 \
ghcr.io/edgelesssys/constellation-coreos-assembler
Run a single image
Using the run-image
script we can launch a single VM with an attached vTPM.
The script expects an image and a name to run. Optionally one may also provide the path to an existing state disk, if none provided a new disk will be created.
Additionally one may configure QEMU CPU (qemu -smp flag, default=2) and memory (qemu -m flag, default=2G) settings, as well as the size of the created state disk in GB (default 2) using environment variables.
To customize CPU settings use CONSTELL_CPU=[[cpus=]n][,maxcpus=maxcpus][,sockets=sockets][,dies=dies][,cores=cores][,threads=threads]
To customize memory settings use CONSTELL_MEM=[size=]megs[,slots=n,maxmem=size]
To customize state disk size use CONSTELL_STATE_SIZE=n
Use the following command to boot a VM with 2 CPUs, 2G RAM, a 4GB state disk with the image in /constellation/coreos.qcow2
.
Logs and state files will be written to /tmp/test-vm-01
.
sudo CONSTELL_CPU=2 CONSTELL_MEM=2G CONSTELL_STATE_SIZE=4 run-image /constellation/coreos.qcow2 test-vm-01
The command will create a network bridge and add the VM to the bridge, so the host may communicate with the guest VM, as well as allowing the VM to access the internet.
Press Ctrl+A X to stop the VM, this will remove the VM from the bridge but will keep the bridge alive.
Run the following to remove the bridge.
sudo delete_network_bridge br-constell-0
Create a local cluster
Using the create-constellation
script we can create multiple VMs using the same image and connected in one network.
The same environment variables as for run-image
can be used to configure cpu, memory, and state disk size.
Use the following command to create a cluster of 4 VMs, where each VM has 3 CPUs, 4GB RAM and a 5GB state disk.
Logs and state files will be written to /tmp/constellation
.
sudo CONSTELL_CPU=3 CONSTELL_MEM=4G CONSTELL_STATE_SIZE=5 create-constellation 4 /constellation/coreos.qcow2
The command will use the run-image
script launch each VM in its own tmux
session.
View the VMs by running the following
sudo tmux attach -t constellation-vm-<i>