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cloudctl

Commandline client for "Kubernetes as a Service" and more!

Installation

Download locations:

Packaging status

Installation on Linux

curl -LO https://github.com/fi-ts/cloudctl/releases/latest/download/cloudctl-linux-amd64
chmod +x cloudctl-linux-amd64
sudo mv cloudctl-linux-amd64 /usr/local/bin/cloudctl

Installation on MacOS

For x86 based Macs:

curl -LO https://github.com/fi-ts/cloudctl/releases/latest/download/cloudctl-darwin-amd64
chmod +x cloudctl-darwin-amd64
sudo mv cloudctl-darwin-amd64 /usr/local/bin/cloudctl

For Apple Silicon (M1) based Macs:

curl -LO https://github.com/fi-ts/cloudctl/releases/latest/download/cloudctl-darwin-arm64
chmod +x cloudctl-darwin-arm64
sudo mv cloudctl-darwin-arm64 /usr/local/bin/cloudctl

Usage with Nix on Linux or MacOS

fits-cloudctl is packaged in nixpkgs and can be installed using the Nix Package Manager on Linux, MacOS and NixOS.

$ nix-shell -p fits-cloudctl

The package can also be installed eg. with nix-env -i fits-cloudctl.

Installation on Windows

curl -LO https://github.com/fi-ts/cloudctl/releases/latest/download/cloudctl-windows-amd64
copy cloudctl-windows-amd64 cloudctl.exe

cloudctl update

In order to keep your local cloudctl installation up to date, you can update the binary like this:

cloudctl update check
latest version:2019-09-20T08:48:07Z
local  version:2019-09-21T18:52:07Z
cloudctl is not up to date

cloudctl update do
# a download with progress bar starts and replaces the binary. If the binary has root permissions please execute
sudo cloudctl update do
# instead

Usage

Login

Login, issue token for cloud and cluster access.

First you need to create a file in your home directory:

~/.cloudctl/config.yaml

---
current: prod
contexts:
  prod:
    url: https://api.somedomain.example/cloud
    issuer_url: https://dex.somedomain.example
    client_id: my-client-id
    client_secret: my-secret

Optional you can specify issuer_type: generic if you use other issuers as Dex, e.g. Keycloak (this will request scopes openid,profile,email):

contexts:
  prod:
    url: https://api.somedomain.example/cloud
    issuer_url: https://keycloak.somedomain.example
    issuer_type: generic
    client_id: my-client-id
    client_secret: my-secret

If you must specify special scopes for your issuer, you can use custom_scopes:

contexts:
  prod:
    url: https://api.somedomain.example/cloud
    issuer_url: https://keycloak.somedomain.example
    custom_scopes: roles,openid,profile,email
    client_id: my-client-id
    client_secret: my-secret

Then you can login:

cloudctl login

A Browser window will open and you are prompted to select your backend.

  • Choose the login for your organization and type your login credentials
  • Push green button: "Grant Access"

Token will be written to default kubectl-config, e.g. ~/.kube/config

Then you can close the browser window.

Get currently logged in user

cloudctl whoami

Prints the username, that is currently logged in. This does not mean, that the token is still valid.

HowTo

List Clusters

cloudctl cluster ls

Create Project

cloudctl project create --name banking --description "Banking Cluster"

cloudctl project ls
UID                                   NAME     DESCRIPTION
25195ae3-8e02-4b56-ba36-d4b1f94bc17e  banking  Banking Cluster

Remember project UID for cluster creation.

Create Cluster

cloudctl cluster create \
  --name banking \
  --project <project UID> \
  --partition <partition id> \
  --description "banking cluster for project banking next generation" \
  --minsize 2 \
  --maxsize 2

UID                                   NAME     VERSION  PARTITION  DOMAIN                               OPERATION  PROGRESS          APISERVER  CONTROL  NODES  SYSTEM  SIZE   AGE
1d8636d7-dadb-11e9-9e70-8ebea97dd3a9  banking  1.14.3   nbg-w8101  banking.pd25ml.cluster.somedomain.example  Succeeded  0% [Create]                                          2/2    1m

after ~7min:

cloudctl cluster ls
UID                                   NAME     VERSION  PARTITION  DOMAIN                               OPERATION  PROGRESS          APISERVER  CONTROL  NODES  SYSTEM  SIZE   AGE
1d8636d7-dadb-11e9-9e70-8ebea97dd3a9  banking  1.14.3   nbg-w8101  banking.pd25ml.cluster.somedomain.example  Succeeded  100% [Reconcile]  True       True     True   True    2/2  9m

Remember the cluster UID for further references.

You can list possible input options for the cluster create command via (some of them are defaulted, so you do not have to define all of them):

cloudctl cluster inputs
    firewallimages:
      - firewall-2.0.20200331
      - firewall-ubuntu-2.0.20200331
    firewalltypes:
      - c1-xlarge-x86
      - s2-xlarge-x86
    kubernetesversions:
      - 1.15.10
      - 1.15.11
      - 1.16.7
      - 1.16.8
      - 1.16.9
      - 1.17.3
      - 1.17.4
      - 1.17.5
    machineimages:
      - name: ubuntu
        version: "19.10"
    machinetypes:
      - c1-xlarge-x86
      - s2-xlarge-x86
    partitionconstraints:
        fel-wps101:
            networks:
              - internet
              - mpls-fits
              - ...
        nbg-w8101:
            networks:
              - internet
              - mpls-fits
              - ...
    partitions:
      - fel-wps101
      - nbg-w8101

Download Kubeconfig

In order to be able to download the kubeconfig the cluster must have reached the APISERVER=True state. This can be checked with subsequent cloudctl cluster ls calls, or even more convenient watch cloudctl cluster ls.

cloudctl cluster kubeconfig <cluster UID> > banking.kubeconfig

kubectl --kubeconfig ./banking.kubeconfig get nodes

Delete your cluster

When you do not need your cluster anymore you can delete your cluster, to do so you get asked two questions to be sure you delete the correct cluster. The first question asks you for the first part of the clusterID. If you clusterID looks like: b5e24862-3cc2-4145-bfa4-ae4af102f965 the first part is up to the first - which is in this case b5e24862. The second question is the name of the cluster. If both was correct, your cluster will be deleted, if not the deletion is not triggered.

cloudctl cluster rm <cluster UID>
  UID                                   TENANT  PROJECT                               NAME        VERSION  PARTITION  OPERATION   PROGRESS      API   CONTROL  NODES  SYSTEM  SIZE  AGE
  9b86273a-0ab1-11ea-8057-9ad8c07d0e04  fits    b5e24862-3cc2-4145-bfa4-ae4af102f965  s3-cluster  1.14.3   nbg-w8101  Processing  63% [Delete]  True  False    True   False   1/1   17m 22s
Please answer some security questions to delete this cluster
first part of clusterID:9b86273a
Clustername:s3-cluster

Managing ip addresses

Ingress ip addresses in Kubernetes are generated automatically from an ip address pool when a service of LoadBalancer type is created. The default address pool is the internet address pool, so applications can be reached from the internet.

In order to make applications accessible from the "internal" MPLS network, the appropriate address pool must be specified. The available pools can be found with:

cloudctl cluster describe <cluster UID>

(...)
spec:
(...)
    cloud:
(...)
        metal:
(...)
            networks:
                additional:
                  - internet-nbg-w8101
                  - mpls-nbg-w8101-fits-dev

The pool is added as annotation to the service definition:

apiVersion: v1
kind: Service
metadata:
  name: <service name>
  labels:
    name: <service name>
    app: <application name>
  annotations:
    metallb.universe.tf/address-pool: mpls-nbg-w8101-fits-dev-ephemeral
spec:
  ports:
  - port: 80
    targetPort: 80
  type: LoadBalancer
  selector:
     name: <pod name>
     app: <application name>

(Note the attached -ephemeral at the end of the pool name.)

After applying the service definition, its ip address can be found with kubectl get services:

kubectl --kubeconfig banking.kubeconfig get services
NAME                  TYPE           CLUSTER-IP      EXTERNAL-IP     PORT(S)        AGE
db                    ClusterIP      10.244.28.130   <none>          5432/TCP       16s
kubernetes            ClusterIP      10.244.16.1     <none>          443/TCP        24m
redis                 ClusterIP      10.244.21.227   <none>          6379/TCP       16s
result-service        LoadBalancer   10.244.19.185   212.34.89.84    80:31643/TCP   16s
voting-service        LoadBalancer   10.244.27.21    212.34.89.85    80:31866/TCP   16s
voting-service-mpls   LoadBalancer   10.244.19.97    100.127.129.3   80:32708/TCP   16s

To list all ip addresses assigned to the current project, use

cloudctl ip list --project <project UID>

The output could look like this:

cloudctl ip list --project 9725892b-a830-4ed9-b16a-75e2409c8316
  IP             TYPE       NAME                            NETWORK                               PROJECT                               TAGS
  10.2.0.3       ephemeral  shoot--pqpgh...-firewall-ebba7  underlay-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  machine:71d4ec00-7107-11e9-8000-efbeaddeefbe
  10.3.60.1      ephemeral  shoot--pqpgh...-firewall-ebba7  4ff30487-9496-4770-8b88-38406ecd9bba  9725892b-a830-4ed9-b16a-75e2409c8316  machine:71d4ec00-7107-11e9-8000-efbeaddeefbe
  10.3.60.2      ephemeral  shoot--pqpgh...8774f56d4-glhsw  4ff30487-9496-4770-8b88-38406ecd9bba  9725892b-a830-4ed9-b16a-75e2409c8316  machine:8c4eaa00-7187-11e9-8000-efbeaddeefbe
  100.127.129.2  ephemeral  shoot--pqpgh...-firewall-ebba7  mpls-nbg-w8101-fits-dev               9725892b-a830-4ed9-b16a-75e2409c8316  machine:71d4ec00-7107-11e9-8000-efbeaddeefbe
  100.127.129.3  ephemeral  metallb-4e8d5                   mpls-nbg-w8101-fits-dev               9725892b-a830-4ed9-b16a-75e2409c8316  service:deb74391-0245-11ea-8b7d-e6272ba300ae/default/voting-service-mpls
  212.34.89.53   ephemeral  shoot--pqpgh...-firewall-ebba7  internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  machine:71d4ec00-7107-11e9-8000-efbeaddeefbe
  212.34.89.54   ephemeral  metallb-a756a                   internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  service:deb74391-0245-11ea-8b7d-e6272ba300ae/kube-system/vpn-shoot
  212.34.89.55   ephemeral  metallb-a7a35                   internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  service:deb74391-0245-11ea-8b7d-e6272ba300ae/kube-system/addons-nginx-ingress-controller
  212.34.89.80   ephemeral  metallb-4e72b                   internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  service:deb74391-0245-11ea-8b7d-e6272ba300ae/default/result-service
  212.34.89.81   ephemeral  metallb-4eb0d                   internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  service:deb74391-0245-11ea-8b7d-e6272ba300ae/default/voting-service

To make an ip address static, use the command cloudctl ip static:

cloudctl ip static <ip address>

Static ip addresses are shown differently in the output of cloudctl ip list:

  IP             TYPE    NAME           NETWORK                  PROJECT                               TAGS
(...)
  100.127.129.3  static     metallb-4e8d5                   mpls-nbg-w8101-fits-dev               9725892b-a830-4ed9-b16a-75e2409c8316  service:deb74391-0245-11ea-8b7d-e6272ba300ae/default/voting-service-mpls

To bind a static IP to a service, the address gets added explicitly to the specs of the LoadBalancer service:

apiVersion: v1
kind: Service
metadata:
  name: <service name>
  labels:
    name: <service name>
    app: <application name>
spec:
  ports:
  - port: 80
    targetPort: 80
  type: LoadBalancer
  selector:
     name: <pod name>
     app: <application name>
  loadBalancerIP: 100.127.129.3

The same static ip address can be bound to services in different clusters by specifying it in the appropriate service definitions. The output of cloudctl ip list then shows both services for the same ip address:

cloudctl ip list --project 9725892b-a830-4ed9-b16a-75e2409c8316
  IP             TYPE       NAME                            NETWORK                               PROJECT                               TAGS
  10.2.0.3       ephemeral  shoot--pqpgh...-firewall-ebba7  underlay-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  machine:71d4ec00-7107-11e9-8000-efbeaddeefbe
  10.2.0.5       ephemeral  shoot--pqpgh...-firewall-2af68  underlay-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  machine:00000000-beef-beef-0006-efbeaddeefbe
  10.3.60.1      ephemeral  shoot--pqpgh...-firewall-ebba7  4ff30487-9496-4770-8b88-38406ecd9bba  9725892b-a830-4ed9-b16a-75e2409c8316  machine:71d4ec00-7107-11e9-8000-efbeaddeefbe
  10.3.60.2      ephemeral  shoot--pqpgh...8774f56d4-glhsw  4ff30487-9496-4770-8b88-38406ecd9bba  9725892b-a830-4ed9-b16a-75e2409c8316  machine:8c4eaa00-7187-11e9-8000-efbeaddeefbe
  10.3.96.1      ephemeral  shoot--pqpgh...-firewall-2af68  0f573b0b-bbe4-4d80-a767-3b522ab0fb08  9725892b-a830-4ed9-b16a-75e2409c8316  machine:00000000-beef-beef-0006-efbeaddeefbe
  10.3.96.2      ephemeral  shoot--pqpgh...84cd5df9d-q45lz  0f573b0b-bbe4-4d80-a767-3b522ab0fb08  9725892b-a830-4ed9-b16a-75e2409c8316  machine:00000000-beef-beef-0012-efbeaddeefbe
  100.127.129.2  ephemeral  shoot--pqpgh...-firewall-ebba7  mpls-nbg-w8101-fits-dev               9725892b-a830-4ed9-b16a-75e2409c8316  machine:71d4ec00-7107-11e9-8000-efbeaddeefbe
  100.127.129.3  static     metallb-4e8d5                   mpls-nbg-w8101-fits-dev               9725892b-a830-4ed9-b16a-75e2409c8316  service:1c1e0e4c-024c-11ea-8b7d-e6272ba300ae/default/voting-service-mpls
                                                                                                                                        service:deb74391-0245-11ea-8b7d-e6272ba300ae/default/voting-service-mpls
  100.127.129.4  ephemeral  shoot--pqpgh...-firewall-2af68  mpls-nbg-w8101-fits-dev               9725892b-a830-4ed9-b16a-75e2409c8316  machine:00000000-beef-beef-0006-efbeaddeefbe
  212.34.89.53   ephemeral  shoot--pqpgh...-firewall-ebba7  internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  machine:71d4ec00-7107-11e9-8000-efbeaddeefbe
  212.34.89.54   ephemeral  metallb-a756a                   internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  service:deb74391-0245-11ea-8b7d-e6272ba300ae/kube-system/vpn-shoot
  212.34.89.55   ephemeral  metallb-a7a35                   internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  service:deb74391-0245-11ea-8b7d-e6272ba300ae/kube-system/addons-nginx-ingress-controller
  212.34.89.78   ephemeral  shoot--pqpgh...-firewall-2af68  internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  machine:00000000-beef-beef-0006-efbeaddeefbe
  212.34.89.79   ephemeral  metallb-fc775                   internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  service:1c1e0e4c-024c-11ea-8b7d-e6272ba300ae/kube-system/addons-nginx-ingress-controller
  212.34.89.80   ephemeral  metallb-4e72b                   internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  service:deb74391-0245-11ea-8b7d-e6272ba300ae/default/result-service
  212.34.89.81   ephemeral  metallb-4eb0d                   internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  service:deb74391-0245-11ea-8b7d-e6272ba300ae/default/voting-service
  212.34.89.82   ephemeral  metallb-fd499                   internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  service:1c1e0e4c-024c-11ea-8b7d-e6272ba300ae/kube-system/vpn-shoot
  212.34.89.84   ephemeral  metallb-ace53                   internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  service:1c1e0e4c-024c-11ea-8b7d-e6272ba300ae/default/result-service
  212.34.89.85   ephemeral  metallb-ad01d                   internet-nbg-w8101                    9725892b-a830-4ed9-b16a-75e2409c8316  service:1c1e0e4c-024c-11ea-8b7d-e6272ba300ae/default/voting-service

Static ip addresses are assigned to the project and survive deletion of individual clusters. To free a static ip address use the command cloudctl ip delete:

cloudctl ip delete 100.127.129.3
  IP             TYPE    NAME           NETWORK                  PROJECT                               TAGS
  100.127.129.3  static  metallb-4e8d5  mpls-nbg-w8101-fits-dev  9725892b-a830-4ed9-b16a-75e2409c8316

Static ip addresses must freed before their project can be deleted.

Billing

The usage is calculated always within a time window. The beginning of the time window can be specified by --from and if required --to specifies the end of the time window to look at. The end defaults to now.

Example calculation:

given

  • pod starts at 12am with 100m cpu resource limits set
  • time window between 12am and 1pm
  • pod resource limits get modified from 100m to 200m at 12:30am

results

  • pod lifetime is 1hour
  • cpu seconds in the time window is the integral of a step function: 1800s * 100ms + 1800s * 200ms = 540000ms*s = 540s*s (=> 30min with cpu:100m and 30min with cpu:200m)
  • for the sake of readability, the output of cloudctl is made in hours: 540s*s/3600s => 0,15s*h

S3

You can manage S3 storage using cloudctl when S3 is configured in your metal stack control plane.

To list the available S3 partitions in your control plane, issue the following command:

$ cloudctl s3 partitions
NAME        ENDPOINT
fel-wps101  https://s3.test-01-fel-wps101.somedomain.example

In this case, the partition fel-wps101 offers S3 storage. You can now create an S3 user to get storage access:

$ cloudctl s3 create --id my-user --project dc565451-3864-4355-bef5-080a9d0e4068 --partition fel-wps101 -n "My User"
accesskey: 3ZA4D7NFT1K6UB1N2ON1
name: My User
email: null
endpoint: https://s3.test-01-fel-wps101.somedomain.example
maxbuckets: 1000
id: my-user
partition: fel-wps101
project: dc565451-3864-4355-bef5-080a9d0e4068
secretkey: kEZ8fV1odMa9SzgrRlW9HtwB4yAqYITd4hM4NJTT
tenant: fits

After that, you can configure an S3 client to access the storage with this user.

If you need to look up the user at a later point in time again, you can use the describe command:

$ cloudctl s3 describe --name test --partition fel-wps101
accesskey: 3ZA4D7NFT1K6UB1N2ON1
name: My User
email: null
endpoint: https://s3.test-01-fel-wps101.somedomain.example
maxbuckets: 1000
id: my-user
partition: fel-wps101
project: dc565451-3864-4355-bef5-080a9d0e4068
secretkey: kEZ8fV1odMa9SzgrRlW9HtwB4yAqYITd4hM4NJTT
tenant: fits

Or if you want to delete the user again, run the delete command:

$ cloudctl s3 delete --name test --partition fel-wps101
endpoint: https://s3.test-01-fel-wps101.somedomain.example
id: my-user
partition: fel-wps101
project: dc565451-3864-4355-bef5-080a9d0e4068
tenant: fits

Configuring the minio mc client

the command: cloudctl s3 describe --for-client minio|s3cmd will echo the required cli for the requested flavour.

$ cloudctl s3 describe --for-client minio --id test --partition=fel-wps101 --project=4fe217b4-3b3d-413e-87fc-fb89054cc70c
mc config host add test https://s3.test-01-fel-wps101.somedomain.example <your access key> <your secret key>

$ mc mb test/testbucket
Bucket created successfully `test/testbucket`.

$ mc cp ./README.md test/testbucket
./README.md:                       4.05 KiB / 4.05 KiB ┃▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓▓┃ 100.00% 2.23 KiB/s 1s

$ mc ls test/testbucket
[2020-04-07 09:34:48 CEST]  4.0KiB README.md

Configuring s3cmd

export AWS_ACCESS_KEY_ID= <your access key>
export AWS_SECRET_ACCESS_KEY=<your secret key>

$ cloudctl s3 describe --for-client s3cmd --id test --partition=fel-wps101 --project=4fe217b4-3b3d-413e-87fc-fb89054cc70c
cat << EOF > ${HOME}/.s3cfg
[default]
access_key = 45F3GU4DYSSN958I0HI8
host_base = https://s3.test-01-fel-wps101.somedomain.example
host_bucket = https://s3.test-01-fel-wps101.somedomain.example
secret_key = vee0Pa2ahgaec5Eitaucheedaij3oot9ahh2aeWe
EOF

s3cmd la
2020-04-07 07:34      4147   s3://test/README.md

Advanced Usage

Use token for existing Cluster

  1. You have downloaded your kubeconfig to the default location or inserted the cluster-config into your existing kubeconfig under the name "clustername".
  2. issue token "cloudctl login", will be stored in config, get name with "cloudctl whoami"
  3. assign your user credentials with your cluster in the context "contextname", see following paragraph

If you want to use your token for "username" for your cluster "clustername" in the context "contextname" (existing or new) then you have to issue the following command:

kubectl config set-context contextname --user username --cluster clustername [--namespace=mynamespace]

This prepares your context "contextname" in a way, that your user credentials of user "username" are used with the cluster "clustername". You can assign your user to multiple clusters.

This process has to be done only once. The next time you execute "cloudctl login", the token can be used for all contexts the user has been assigned to.