Install Armory Enterprise for Spinnaker in Amazon Web Services (AWS)
Armory Enterprise requires a license. For more information, contact Armory.
Overview of installing Armory in AWS
- A Kubernetes cluster running on Amazon Web Services (AWS). EKS is a good way to get a Kubernetes cluster up on AWS - see the AWS documentation for this.
- An Amazon S3 (Simple Storage Service) bucket. You can use an existing one or create a new one.
- An NGINX Ingress controller in your AWS cluster.
This document currently does not fully cover the following (see Next Steps for some links to achieve these)
- TLS Encryption
- Authentication/Authorization
- Add K8s accounts to deploy to
- Add cloud accounts to deploy to
This document is focused on Armory, but it can be adapted to install Open Source SpinnakerTM by using a different Halyard container and a corresponding different Spinnaker version.
AWS Resources
Before you install Armory on AWS, it is essential that you familiarize yourself with relevant AWS services.
Prerequisites for installing Armory
This document assumes the following:
-
You have a Kubernetes cluster up and running, with the following:
- You can access the Kubernetes API. If using EKS, either your user/role created the EKS cluster or your user/role has been added to the
aws-auth
configmap in the EKS cluster. See the AWS documentation for more details. - At least 2x worker nodes, each with at least 2 vCPUs and 4 GiB of memory. This is the bare minimum to install and run Armory. If you’re deploying more intermittent test workloads you will likely need more).
- You can access the Kubernetes API. If using EKS, either your user/role created the EKS cluster or your user/role has been added to the
-
You have access to an S3 bucket or access to create an S3 bucket
-
You have access to an IAM role or user with access to the S3 bucket or can create an IAM role or user with access to the S3 bucket.
This document is written with the following workflow in mind:
- You have a machine (referred to as the
workstation machine
in this document) configured to use theaws
CLI tool and a recent version ofkubectl
tool - You have a machine (referred to as the
Halyard machine
in this document) with the Docker daemon installed, and can run Docker containers on it - You can transfer files created on the
workstation machine
to theHalyard machine
(to a directory mounted on a running Docker container) - These two machines can be the same machine
Furthermore:
On the Halyard machine
:
-
Halyard (the tool used to install and manage Armory) is run in a Docker container on the
Halyard machine
-
The Halyard container on the
Halyard machine
will be configured with the following volume mounts, which should be persisted or preserved to manage your Armory cluster.hal
directory (mounted to/home/spinnaker/.hal
) - stores all Halyard Armory configurations in a.hal/config
YAML file and assorted subdirectories.secret
directory (mounted to/home/spinnaker/.secret
) stores all external secret keys and files used by Halyardresources
directory (mounted to/home/spinnaker/resources
) stores all Kubernetes manifests and other resources that help create Kubernetes resources
-
You will create
kubeconfig
files that will be added to the.secret
directory
Note: If you are not using the Halyard Docker container, but sure to install kubectl
before you install Halyard. Otherwise you will have to restart the Halyard daemon in order for hal
to find kubectl
in your $PATH
. Execute hal shutdown
and then any hal
command to start the daemon.
On the workstation machine
:
-
If using EKS, you can use the
aws
CLI tool to interact with the AWS API and configure/communicate with the following:- EKS clusters (or, alternately, have a EKS cluster already built)
- S3 buckets (or, alternately, have an S3 bucket already built)
-
You have the
kubectl
(Kubernetes CLI tool) installed and are able to use it to interact with your Kubernetes cluster -
You have a persistent working directory in which to work in. One option here is
~/aws-spinnaker
-
You will create AWS resources, such as service accounts, that will be permanently associated with your Armory cluster
Installation summary
In order to install Armory, this document covers the following:
-
Generating a
kubeconfig
file, which is a Kubernetes credential file that Halyard and Armory will use to communicate with the Kubernetes cluster where Armory will be installed -
Creating an S3 bucket for Armory to store persistent configuration in
-
Creating an IAM user that Armory will use to access the S3 bucket
-
Running the Halyard daemon in a Docker container
- Persistent configuration directories from the workstation/host will be mounted into the container
-
Running the
hal
client interactively in the same Docker container, to:- Build out the halconfig YAML file (
.hal/config
) - Configure Armory/Halyard to use
kubeconfig
to install Armory - Configure Armory with the IAM credentials and bucket information
- Turn on other recommended settings (artifacts and http artifact provider)
- Install Armory
- Expose Armory
- Build out the halconfig YAML file (
Connect to the Kubernetes cluster
Armory needs a credential to talk to Kubernetes, so you must create a service account in your Kubernetes cluster.
Connecting to an EKS cluster
If you’re using an EKS cluster, you must be able to connect to the EKS cluster. This assumes you have already configured the aws
CLI with credentials and a default region / availability zone (see installation directions here and configuration directions here)
-
Create the local working directory on your workstation. For the purposes of this document, we will be using
~/aws-spinnaker
, but this can be any persistent directory on any Linux or OSX machine.mkdir ~/aws-spinnaker cd ~/aws-spinnaker
-
If you have access to the role that created the EKS cluster, you can create a kubeconfig with access to your Kubernetes cluster with this command:
aws eks update-kubeconfig --name <EKS_CLUSTER_NAME> --kubeconfig kubeconfig-aws
-
From here, you can validate access to the cluster with this command:
kubectl --kubeconfig kubeconfig-aws get namespaces
Connecting to other Kubernetes clusters
If you’ve stood up Kubernetes on AWS with KOPS or another Kubernetes tool, ensure that you can communicate with your Kubernetes cluster with kubectl.
Then, copy your kubeconfig
file (this is typically located in ~/.kube/config
) to your working directory:
cp ~/.kube/config ~/aws-spinnaker/kubeconfig-aws
Create a kubeconfig
file for Halyard/Armory
Armory will be installed in its own namespace in your EKS or AWS-hosted Kubernetes cluster. For the purposes of this document, we will be installing Armory in the spinnaker-system
namespace; you’re welcome to use a different namespace for this.
We’re going to create the following:
- A namespace called
spinnaker-system
to install Armory in - A service account for that namespace
- A role and rolebinding in that namespace, granting permissions to the service account
- A kubeconfig containing credentials for the service account
This document uses the Armory spinnaker-tools
Go CLI (available on Github) to create many of these resources. There are separate instructions to perform these steps manually.
Halyard uses this Kubeconfig file to create the Kubernetes deployment objects that create the microservices that compose Armory. This same Kubeconfig is passed to Armory so that Armory can see and manage its own resources.
-
Obtain the
spinnaker-tools
CLI tool. Go to https://github.com/armory/spinnaker-tools/releases, and download the latest release for your operating system (OSX and Linux available). You can also use curl:# If you're not already in the directory cd ~/aws-spinnaker # If you're on Linux instead of OSX, use this URL instead: # https://github.com/armory/spinnaker-tools/releases/download/0.0.6/spinnaker-tools-linux curl -L https://github.com/armory/spinnaker-tools/releases/download/0.0.6/spinnaker-tools-darwin -o spinnaker-tools chmod +x spinnaker-tools
-
Run the tool. Feel free to substitute other values for the parameters:
# The 'aws eks update-kubeconfig' command from above will create/update this file SOURCE_KUBECONFIG=kubeconfig-aws # Get the name of the context created by the aws tool) CONTEXT=$(kubectl --kubeconfig ${SOURCE_KUBECONFIG} config current-context) DEST_KUBECONFIG=kubeconfig-spinnaker-system-sa SPINNAKER_NAMESPACE=spinnaker-system SPINNAKER_SERVICE_ACCOUNT_NAME=spinnaker-service-account ./spinnaker-tools create-service-account \ --kubeconfig ${SOURCE_KUBECONFIG} \ --context ${CONTEXT} \ --output ${DEST_KUBECONFIG} \ --namespace ${SPINNAKER_NAMESPACE} \ --service-account-name ${SPINNAKER_SERVICE_ACCOUNT_NAME}
You should be left with a file called kubeconfig-spinnaker-system-sa
(or something similar, if you’re using a different namespace for spinnaker)
Create the S3 bucket and credentials
If you do not yet have an S3 bucket, create the S3 bucket:
-
Log into the AWS Console (web UI)
-
Navigate to the S3 Console (Click on “Services” at the top, and then on “S3” under “Storage”)
-
Click on “Create Bucket”
-
Specify a globally unique name for this bucket, in your AWS region of choice, following your organization’s naming convention (if applicable). For this document, we will use,
spinnaker-jq6cqvmpro
. -
Click “Next”
-
Select the following two checkboxes:
- Keep all versions of an object in the same bucket
- Automatically encrypt objects when they are stored in S3
-
Click “Next”
-
Do not add any additional permissions, unless specified by your organization. Click “Next”
-
Click “Create bucket”
Armory (the front50
service, specifically) will need access to your newly-created bucket. There are a number of ways to achieve this. This document describes two mechanisms to do this.
By default, Armory will store all Armory information in a folder called front50
in your bucket. You can optionally specify a different directory (for example, if you’re using a pre-existing or shared S3 bucket).
Create an IAM user using an inline policy
You can create an IAM user with credentials, and provide that to Armory via Halyard
- Log into the AWS Console (Web UI)
- Navigate to the IAM Console (Click on “Services” at the top, and then on “IAM” under “Security, Identity, & Compliance”)
- Click on “Users” on the left
- Click on “Add user”
- Give your user a distinct name, per your organization’s naming conventions. For this document, we will use
s3-spinnaker-jq6cqvmpro
- Click on “Programmatic access”
- We will not be adding a distinct policy to this user. Click on “Next: Tags”. You may receive a warning about how there are no policies attached to this user - this warning can be ignored.
- Optionally, add tags, then click on “Next: Review”
- Click “Create user”
- Save the Access Key ID and Secret Access Key - these will be used later, during Halyard configuration
- Click “Close”
Then, add an inline policy to your IAM user:
-
Click on your newly-created IAM user
-
Click on “Add inline policy” (on the right)
-
Click on the “JSON” tab
-
Add this text (replace
s3-spinnaker-jq6cqvmpro
with the name of your bucket){ "Version": "2012-10-17", "Statement": [ { "Effect": "Allow", "Action": "s3:*", "Resource": [ "arn:aws:s3:::spinnaker-jq6cqvmpro", "arn:aws:s3:::spinnaker-jq6cqvmpro/*" ] } ] }
-
Click on “Review Policy”
-
Give your inline policy some name. For example
s3-spinnaker-jq6cqvmpro
-
Click “Create Policy”
Create an IAM policy attached to the Kubernetes nodes using an inline policy
Alternately, you can attach an IAM policy to the role attached to your Kubernetes nodes.
-
Log into the AWS Console (Web UI)
-
Navigate to EC2 (Click on “Services” at the top, and then on “EC2” under “Compute”)
-
Click on one of your Kubernetes nodes
-
In the bottom section, look for “IAM role” and click on the role
-
Click on “Add inline policy” (on the right)
-
Click on the “JSON” tab
-
Add this text (replace
s3-spinnaker-jq6cqvmpro
with the name of your bucket){ "Version": "2012-10-17", "Statement": [ { "Effect": "Allow", "Action": "s3:*", "Resource": [ "arn:aws:s3:::spinnaker-jq6cqvmpro", "arn:aws:s3:::spinnaker-jq6cqvmpro/*" ] } ] }
-
Click on “Review Policy”
-
Give your inline policy some name. For example
s3-spinnaker-jq6cqvmpro
-
Click “Create Policy”
Stage files on the Halyard machine
On the Halyard machine, choose a local working directory for Halyard. In it, we will create two folders:
WORKING_DIRECTORY/.hal
WORKING_DIRECTORY/.secret
WORKING_DIRECTORY/resources
# Feel free to use some other directory for this; make sure it is a persistent directory.
# Also, make sure this directory doesn't live on an NFS mount, as that can cause issues
WORKING_DIRECTORY=~/aws-spinnaker/
mkdir -p ${WORKING_DIRECTORY}/.hal
mkdir -p ${WORKING_DIRECTORY}/.secret
mkdir -p ${WORKING_DIRECTORY}/resources
You should have one files:
- A kubeconfig file (
kubeconfig-spinnaker-system-sa
) with the credentials for a service account in your EKS cluster
Copy it into .secret
so it is available to your Halyard docker container:
cp kubeconfig-spinnaker-system-sa ${WORKING_DIRECTORY}/.secret
Start the Halyard container
Visit the Armory-extended Halyard Release Notes page for a list of available Armory-extended Halyard versions and their release notes. You can view version differences as well as which versions are compatible with which Armory releases.
On the Halyard machine
, start the Halyard container .
If you want to install OSS Spinnaker instead, use gcr.io/spinnaker-marketplace/halyard:stable
for the Docker Halyard image reference in substitution of armory/halyard-armory:<image_version>
in the commands below
Before you execute the command below, you need to set permissions on the host (local) directories mapped to the Docker container. These directories must allow for modification from within the container. The
~/.hal
folder within the host (local) system directory needs write permissions (chmod 777 ~/.hal
), or you will encounter issues when attempting to execute ahal deploy apply
from within the container.
docker run --name armory-halyard -it --rm \
-v ${WORKING_DIRECTORY}/.hal:/home/spinnaker/.hal \
-v ${WORKING_DIRECTORY}/.secret:/home/spinnaker/.secret \
-v ${WORKING_DIRECTORY}/resources:/home/spinnaker/resources \
armory/halyard-armory:1.11.0
The installer expects to find your kubeconfig named config
in
the .kube
directory you map below. If you’ve named your config something
else, you need to rename or symlink the file accordingly.
Enter the Halyard container
From a separate terminal session on your docker machine
, create a second bash/shell session on the Docker container:
docker exec -it armory-halyard bash
# Also, once in the container, you can run these commands for a friendlier environment to:
# - prompt with information
# - alias for ls
# - cd to the home directory
export PS1="\h:\w \u\$ "
alias ll='ls -alh'
cd ~
Add the kubeconfig and cloud provider to Armory (via Halyard)
From the docker exec
separate terminal session, add (re-export) the relevant environment variables
###### Use the same values as the start of the document
# Enter the namespace that you want to install Armory in. This should have been created in the previous step.
export NAMESPACE="spinnaker-system"
# Enter the name you want Armory to use to identify the cloud provider account
export ACCOUNT_NAME="spinnaker"
# Update this with the full path to your kubeconfig inside the container)
export KUBECONFIG_FULL=/home/spinnaker/.secret/kubeconfig-spinnaker-system-sa
Use the Halyard hal
command line tool to add a Kubernetes account using your minified kubeconfig
Configure the kubeconfig:
# Enable the Kubernetes cloud provider
hal config provider kubernetes enable
Note: If you get an AccessDenied
error, change permissions on the host machine’s .hal
folder to allow read/write access by the Halyard container. Example: chmod 777 ~/.hal
.
Next, configure the account:
# Add account
hal config provider kubernetes account add ${ACCOUNT_NAME} \
--provider-version v2 \
--kubeconfig-file ${KUBECONFIG_FULL} \
--only-spinnaker-managed true \
--namespaces ${NAMESPACE}
Configure Armory to install in Kubernetes
Important: This will by default limit your Armory to deploying to the namespace specified. If you want to be able to deploy to other namespaces, either add a second cloud provider target or remove the --namespaces
flag.
Use the Halyard hal
command line tool to configure Halyard to install Armory in your Kubernetes cluster
hal config deploy edit \
--type distributed \
--account-name ${ACCOUNT_NAME} \
--location ${NAMESPACE}
Enable Artifacts
Within Armory, ‘artifacts’ are consumable references to items that live outside of Armory, such as a file in a git repository or a file in an S3 bucket. The Artifacts feature must be explicitly turned on.
Enable the “Artifacts” feature and the “http” artifact provider:
# Enable artifacts
hal config features edit --artifacts true
hal config artifact http enable
(In order to add specific types of artifacts, there are further configuration items that must be completed. For now, it is sufficient to just turn on the artifacts feature with the http artifact provider. This will allow Armory to retrieve files via unauthenticated http.)
Configure Armory to use your S3 bucket
Use the Halyard hal
command line tool to configure Halyard to configure Armory to use your S3 bucket
If you are using an IAM user
# Update these with the information from the bucket that you created
export BUCKET_NAME=spinnaker-jq6cqvmpro
export REGION=us-west-2
export ACCESS_KEY_ID=<access-key>
# This will prompt for the secret key
hal config storage s3 edit \
--bucket ${BUCKET_NAME} \
--access-key-id ${ACCESS_KEY_ID} \
--secret-access-key \
--region ${REGION}
hal config storage edit --type s3
If you are using the IAM instance roles
# Update these with the information from the bucket that you created
export BUCKET_NAME=spinnaker-jq6cqvmpro
export REGION=us-west-2
# This will prompt for the secret key
hal config storage s3 edit \
--bucket ${BUCKET_NAME} \
--region ${REGION} \
--no-validate
hal config storage edit --type s3
If you want to use a specific folder in the bucket
By default, Halyard will configure Armory to use the folder front50
in your S3 bucket. You can configure it to use a different folder with this command:
ROOT_FOLDER=not_front50
hal config storage s3 edit --root-folder ${ROOT_FOLDER}
Choose the Armory version
Before Halyard will install Armory, you should specify the version of Armory you want to use.
You can get a list of available versions of spinnaker with this command:
hal version list
If you are installing Armory, you will get a version that starts with 2.x.x
If you are installing OSS Spinnaker and using gcr.io/spinnaker-marketplace/halyard:stable
, you will get a version that starts with 1.x.x
And then you can select the version with this:
# Replace with version of choice:
export VERSION=$(hal version latest -q)
hal config version edit --version $VERSION
Install Armory
Now that your Halconfig is completely configured for the initial Armory deployment, you can tell Halyard to actually install Armory:
hal deploy apply
Once this is complete, congratulations! Armory is installed. Now, we have to access and expose it.
Connect to Armory using kubectl port-forward
If you have kubectl on a local machine with access to your Kubernetes cluster, you can test connecting to it with the following:
NAMESPACE=spinnaker-system
DECK_POD=$(kubectl -n ${NAMESPACE} get pod -l cluster=spin-deck -ojsonpath='{.items[0].metadata.name}')
GATE_POD=$(kubectl -n ${NAMESPACE} get pod -l cluster=spin-gate -ojsonpath='{.items[0].metadata.name}')
kubectl -n ${NAMESPACE} port-forward ${DECK_POD} 9000 &
kubectl -n ${NAMESPACE} port-forward ${GATE_POD} 8084 &
Then, you can access Armory at http://localhost:9000
(If you are doing this on a remote machine, this will not work because your browser attempts to access localhost on your local workstation rather than on the remote machine where the port is forwarded)
Note: Even if the hal deploy apply
command returns successfully, the
installation may not be complete yet. This is especially the case with
distributed Kubernetes installs. If you see errors such as Connection refused
,
the containers may not be available yet. You can either wait
or check the status of all of the containers using the command for your cloud provider
(such as kubectl get pods --namespace spinnaker
).
Install the NGINX ingress controller
In order to expose Armory to end users, you have perform the following actions:
- Expose the spin-deck (UI) Kubernetes service on some URL endpoint
- Expose the spin-gate (API) Kubernetes service on some URL endpoint
- Update Armory (via Halyard) to be aware of the new endpoints
We’re going to install the NGINX ingress controller on AWS (this uses the Layer 4 ELB, as indicated in the NGINX ingress controller documentation - you can use other NGINX ingress controller configurations such as the Layer 7 load balancer per your organization’s ingress policy.)
(Both of these are configurable with Armory, but the NGINX ingress controller is also generally much more configurable)
From the workstation machine
(where kubectl
is installed):
Install the NGINX ingress controller components:
kubectl --kubeconfig kubeconfig-aws apply -f https://raw.githubusercontent.com/kubernetes/ingress-nginx/master/deploy/static/provider/aws/deploy.yaml
Install the NGINX ingress controller AWS-specific service:
kubectl --kubeconfig kubeconfig-aws apply -f https://raw.githubusercontent.com/kubernetes/ingress-nginx/master/deploy/static/provider/aws/service-l4.yaml
kubectl --kubeconfig kubeconfig-aws apply -f https://raw.githubusercontent.com/kubernetes/ingress-nginx/master/deploy/static/provider/aws/patch-configmap-l4.yaml
Set up the Ingress for spin-deck
and spin-gate
Identify the URLs you will use to expose Armory’s UI and API.
# Replace with actual values
SPIN_DECK_ENDPOINT=spinnaker.some-url.com
SPIN_GATE_ENDPOINT=api.some-url.com
NAMESPACE=spinnaker-system
Create a Kubernetes Ingress manifest to expose spin-deck and spin-gate (change your hosts and namespace accordingly):
tee spin-ingress.yaml <<-'EOF'
apiVersion: extensions/v1beta1
kind: Ingress
metadata:
name: spinnaker-nginx-ingress
namespace: NAMESPACE
labels:
app: spin
cluster: spin-ingress
annotations:
kubernetes.io/ingress.class: "nginx"
spec:
rules:
- host: SPIN_DECK_ENDPOINT
http:
paths:
- backend:
serviceName: spin-deck
servicePort: 9000
path: /
- host: SPIN_GATE_ENDPOINT
http:
paths:
- backend:
serviceName: spin-gate
servicePort: 8084
path: /
EOF
sed -i.bak \
-e "s|NAMESPACE|${NAMESPACE}|g" \
-e "s|SPIN_DECK_ENDPOINT|${SPIN_DECK_ENDPOINT}|g" \
-e "s|SPIN_GATE_ENDPOINT|${SPIN_GATE_ENDPOINT}|g" \
spin-ingress.yaml
Create the Ingress
kubectl apply -f spin-ingress.yaml
Configure Armory to be aware of its endpoints
Armory must be aware of its endpoints to work properly.
This should be done from the halyard container:
SPIN_DECK_ENDPOINT=spinnaker.some-url.com
SPIN_GATE_ENDPOINT=api.some-url.com
SPIN_DECK_URL=http://${SPIN_DECK_ENDPOINT}
SPIN_GATE_URL=http://${SPIN_GATE_ENDPOINT}
hal config security ui edit --override-base-url ${SPIN_DECK_URL}
hal config security api edit --override-base-url ${SPIN_GATE_URL}
hal deploy apply
Set up DNS
Once the ingress is up (this may take some time), you can get the IP address for the ingress:
$ kubectl describe -n spinnaker-system ingress spinnaker-nginx-ingress
Name: spinnaker-nginx-ingress
Namespace: spinnaker-system
Address: 35.233.216.189
Default backend: default-http-backend:80 (10.36.2.7:8080)
Rules:
Host Path Backends
---- ---- --------
spinnaker.some-url.com
/ spin-deck:9000 (<none>)
api.some-url.com
/ spin-gate:8084 (<none>)
Annotations:
kubectl.kubernetes.io/last-applied-configuration: {"apiVersion":"extensions/v1beta1","kind":"Ingress","metadata":{"annotations":{"kubernetes.io/ingress.class":"nginx"},"name":"spinnaker-nginx-ingress","namespace":"spinnaker"},"spec":{"rules":[{"host":"spinnaker.some-url.com","http":{"paths":[{"backend":{"serviceName":"spin-deck","servicePort":9000},"path":"/"}]}},{"host":"api.some-url.com","http":{"paths":[{"backend":{"serviceName":"spin-gate","servicePort":8084},"path":"/"}]}}]}}
kubernetes.io/ingress.class: nginx
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal CREATE 28s nginx-ingress-controller Ingress spinnaker/spinnaker-nginx-ingress
Normal UPDATE 20s nginx-ingress-controller Ingress spinnaker/spinnaker-nginx-ingress
Set up DNS so that your two URLs point to the IP address for the ingress (in the above, configure spinnaker.some-url.com
and api.some-url.com
to point to 35.233.216.189
). This can be done via whatever your organization uses for DNS.
Configuring TLS certificates
Configuration of TLS certificates for ingresses is often very organization-specific. In general, you would want to do the following:
- Add certificate(s) so that your ingress controller can use them
- Configure the ingress(es) so that NGINX (or your ingress) terminates TLS using the certificate(s)
- Update Armory to be aware of the new TLS endpoints (note
https
instead ofhttp
)
SPIN_DECK_ENDPOINT=spinnaker.some-url.com
SPIN_GATE_ENDPOINT=api.some-url.com
SPIN_DECK_URL=https://${SPIN_DECK_ENDPOINT}
SPIN_GATE_URL=https://${SPIN_GATE_ENDPOINT}
hal config security ui edit --override-base-url ${SPIN_DECK_URL}
hal config security api edit --override-base-url ${SPIN_GATE_URL}
hal deploy apply
Next steps
Now that you have Armory up and running, here are some of the next things you may want to do:
- Configuration of certificates to secure your cluster (see this section for notes on this)
- Configuration of Authentication/Authorization (see the Open Source Spinnaker documentation)
- Add Kubernetes accounts to deploy applications to (see Creating and Adding a Kubernetes Account to Armory as a Deployment Target)
- Add GCP accounts to deploy applications to (see the Open Source Spinnaker documentation)
- Add AWS accounts to deploy applications to (see the Open Source Spinnaker documentation)
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