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About

This tool is meant to ease interaction with virtualization providers:

  • libvirt
  • kubevirt
  • ovirt
  • vsphere
  • openstack
  • gcp
  • aws
  • packet

You can:

  • manage those vms:
    • create
    • delete
    • list
    • info
    • ssh
    • start
    • stop
    • console
    • serialconsole,
    • create/delete disk
    • create/delete nic
    • clone
  • deploy them using profiles
  • define more complex workflows using plans and products.

The tool can also deploy kubernetes clusters:

  • kubernetes generic (kubeadm)
  • openshift
  • okd
  • k3s

Installation

Libvirt Hypervisor Requisites

If you don’t have libvirt installed on the target hypervisor, you can use the following command to get you going:

sudo yum -y install libvirt libvirt-daemon-driver-qemu qemu-kvm
sudo usermod -aG qemu,libvirt $(id -un)
newgrp libvirt
systemctl enable --now libvirtd

(Optional) For interaction with your local docker daemon, you also need the following:

sudo groupadd docker
sudo usermod -aG docker YOUR_USER
sudo systemctl restart docker

If not running as root, you’ll have to add your user to those groups

sudo usermod -aG qemu,libvirt YOUR_USER

Supported installation methods

The following methods are supported for installation and are all updated automatically when new pushes to kcli are made.

  • rpm package
  • deb package
  • container image
  • pypi package

Installing

The script can also be used for installation, which will make a guess on which method to use for deployment based on your OS, and also create the proper aliases if container method is selected, and set bash completion).

curl https://raw.githubusercontent.com/karmab/kcli/master/install.sh | bash

Package install method

If using fedora or rhel/centos8, you can run this as root:

dnf -y copr enable karmab/kcli ; dnf -y install kcli

If using a debian based distribution, you can use this :

curl -1sLf https://dl.cloudsmith.io/public/karmab/kcli/cfg/setup/bash.deb.sh | sudo -E bash
sudo apt-get update
sudo apt-get -y install python3-kcli

The package version doesn’t bundle the dependencies for anything else than libvirt, so you have to install the extra packages for each additional cloud platforms, which are listed in the Provider specifics section.

Alternatively, the repo contains a meta package named kcli-all (python3-kcli-all in the debian case) that contains dependencies for all the providers.

NOTE: kcli-all is only available on fedora.

Container install method

Note that

  • The container image contains dependencies for all the providers.
  • The console/serial console functionality works better with the package version. In container mode, it only outputs the command to launch manually to get to the console.

In the commands below, use either docker or podman

Pull the latest image:

docker pull quay.io/karmab/kcli

To run it

docker run --rm karmab/kcli

There are several recommended flags:

  • --net host for kcli ssh
  • -v /var/run/libvirt:/var/run/libvirt -v /var/lib/libvirt/images:/var/lib/libvirt/images if running against a local client.
  • -v  ~/.kcli:/root/.kcli to use your kcli configuration (also profiles and repositories) stored locally.
  • -v ~/.ssh:/root/.ssh to share your ssh keys. Alternatively, you can store your public and private key in the ~/.kcli directory.
  • --security-opt label=disable if running with selinux.
  • -v $PWD:/workdir to access plans below your current directory.
  • -v $HOME:/root to share your entire home directory, useful if you want to share secret files, ~/register.sh for instance).
  • -e HTTP_PROXY=your_proxy -e HTTPS_PROXY=your_proxy
  • -v ~/.kube:/root/.kube to share your kubeconfig.
  • -v /var/tmp:/ignitiondir for ignition files to be properly processed.

For web access, you can switch with -p 9000:9000 --entrypoint=/usr/bin/kweb and thus accessing to port 9000.

As a bonus, you can use the following aliases:

alias kcli='docker run --net host -it --rm --security-opt label=disable -v $HOME/.ssh:/root/.ssh -v $HOME/.kcli:/root/.kcli -v /var/lib/libvirt/images:/var/lib/libvirt/images -v /var/run/libvirt:/var/run/libvirt -v $PWD:/workdir -v /var/tmp:/ignitiondir karmab/kcli'
alias kclishell='docker run --net host -it --rm --security-opt label=disable -v $HOME/.ssh:/root/.ssh -v $HOME/.kcli:/root/.kcli -v /var/lib/libvirt/images:/var/lib/libvirt/images -v /var/run/libvirt:/var/run/libvirt -v $PWD:/workdir -v /var/tmp:/ignitiondir --entrypoint=/bin/sh karmab/kcli'
alias kweb='docker run -p 9000:9000 --net host -it --rm --security-opt label=disable -v $HOME/.ssh:/root/.ssh -v $HOME/.kcli:/root/.kcli -v /var/lib/libvirt/images:/var/lib/libvirt/images -v /var/run/libvirt:/var/run/libvirt -v $PWD:/workdir -v /var/tmp:/ignitiondir --entrypoint=/usr/bin/kweb karmab/kcli'

Dev installation

Generic platform

pip install kcli

Or for a full install:

pip install -e git+https://github.com/karmab/kcli.git#egg=kcli[all]

Configuration

If you only want to use your local libvirt, no specific configuration is needed.

kcli configuration is done in ~/.kcli directory, that you need to manually create. It will contain:

  • config.yml generic configuration where you declare clients.
  • profiles.yml stores your profiles where you combine things like memory, numcpus and all supported parameters into named profiles to create vms from.
  • id_rsa/id_rsa.pub/id_dsa/id_dsa.pub You can store your default public and private keys in .kcli directory which will be the first place to look at them when connecting to a remote kvm hpervisor, virtual machine or when injecting your public key.

You can generate a default config file (with all parameters commented) pointing to your local host with:

kcli create host kvm -H 127.0.0.1 local

Or indicate a different target host

kcli create host -H 192.168.0.6 host1

On most distributions, default network and storage pool for libvirt are already defined.

If needed, you can create this default storage pool with this:

kcli create pool -p /var/lib/libvirt/images default
sudo setfacl -m u:$(id -un):rwx /var/lib/libvirt/images

And default network:

kcli create network  -c 192.168.122.0/24 default

For using several hypervisors, you can use the command kcli create host or simply edit your configuration file.

For instance, here’s a sample ~/.kcli/config.yml with two hypervisors:

default:
 client: mycli
 pool: default
 numcpus: 2
 memory: 1024
 disks:
  - size: 10
 protocol: ssh
 nets:
  - default

mycli:
 host: 192.168.0.6
 pool: default

bumblefoot:
 host: 192.168.0.4
 pool: whatever

Replace with your own client in default section and indicate the relevant parameters in the corresponding client section, depending on your client/host type.

Most of the parameters are actually optional, and can be overridden in the default, client or profile section (or in a plan file). You can find a fully detailed config.yml sample here

Storing credentials securely

You can hide your secrets in ~/.kcli/config.yml by replacing any value by ?secret. You can then place the real value in ~/.kcli/secrets.yml by using the same yaml hierarchy.

For instance, if you have the following in your config file:

xxx:
 password: ?secret

You would then put the real password in your secrets file this way:

xxx:
 password: mypassword

Provider specifics

Libvirt

twix:
 type: kvm
 host: 192.168.1.6

Without configuration, libvirt provider tries to connect locally using qemu:///system.

Additionally, remote libvirt hypervisors can be configured by indicating either a host, a port and protocol or a custom qemu url.

When using the host, port and protocol combination, default protocol uses ssh and as such assumes you are able to connect without password to your remote libvirt instance.

If using tcp protocol instead, you will need to configure libvirtd in your remote libvirt hypervisor to accept insecure remote connections.

You will also likely want to indicate default libvirt pool to use (although as with all parameters, it can be done in the default section).

The following parameters are specific to libvirt:

  • url custom qemu uri.
  • session Defaults to False. If you want to use qemu:///session ( locally or remotely). Not recommended as it complicates access to the vm and is supposed to have lower performance.
  • remotednsmasq Defaults to False. Allow to create entries in a dedicated dnsmasq instance running on a remote hypervisor to provide DNS resolution for vms using bridged networks.

Gcp

gcp1:
 type: gcp
 credentials: ~/myproject.json
 project: myproject
 zone: europe-west1-b

The following parameters are specific to gcp:

  • credentials (pointing to a json service account file). if not specified, the environment variable GOOGLE_APPLICATION_CREDENTIALS will be used
  • project
  • zone

also note that gcp provider supports creation of dns records for an existing domain and that your home public key will be uploaded if needed

To gather your service account file:

  • Select the “IAM” → “Service accounts” section within the Google Cloud Platform console.
  • Select “Create Service account”.
  • Select “Project” → “Editor” as service account Role.
  • Select “Furnish a new private key”.
  • Select “Save”.

To Create a dns zone:

  • Select the “Networking” → “Network Services” → “Cloud DNS”.
  • Select “Create Zone”.
  • Put the same name as your domain, but with ‘-’ instead.

If accessing behind a proxy, be sure to set HTTPS_PROXY environment variable to http://your_proxy:your_port

To use this provider with kcli rpm, you’ll need to install (from pip):

  • google-api-python-client
  • google-auth-httplib2
  • google-cloud-dns

Aws

aws:
 type: aws
 access_key_id: AKAAAAAAAAAAAAA
 access_key_secret: xxxxxxxxxxyyyyyyyy
 region: eu-west-3
 keypair: mykey

The following parameters are specific to aws:

  • access_key_id
  • access_key_secret
  • region
  • keypair
  • session_token

To use this provider with kcli rpm, you’ll need to install python3-boto3 rpm

Kubevirt

For kubevirt, you will need to define one ( or several !) sections with the type kubevirt in your ~/.kcli/config.yml

Authentication is either handled by your local ~/.kubeconfig (kcli will try to connect to your current kubernetes/openshift context or with specific token:

kubevirt:
 type: kubevirt

You can use additional parameters for the kubevirt section:

  • context: the k8s context to use.
  • pool: your default storageclass. can also be set as blank, if no storage class should try to bind pvcs.
  • host: k8s api node .Also used for tunneling ssh.
  • port: k8s api port.
  • ca_file: optional certificate path.
  • token: token, either from user or service account.
  • tags: additional list of tags in a key=value format to put to all created vms in their nodeSelector. Can be further indicated at profile or plan level in which case values are combined. This provides an easy way to force vms to run on specific nodes, by matching labels.
  • cdi: whether to use cdi. Defaults to true. A check on whether cdi is actually present will be performed.
  • registry: Registry where to pull containerdisk images. Defaults to none, in which case your configured registries will be used.
  • access_mode: Way to access vms other ssh. Defaults to NodePort,in which case a svc with a nodeport pointing to the ssh port of the vm will be created. Otherpossible values are LoadBalancer to create a svc of type loadbalancer to point to the vm or External to connect using the sdn ip of the vm. If tunnel options are set, they take precedence
  • volume_mode: Volume Mode. Defaults to Filesystem (Block can be specified instead).
  • volume_access: Volume access mode. Defaults to ReadWriteOnce.
  • disk_hotplug: Whether to allow to hotplug (and unplug) disks. Defaults to false. Note it also requires to enable The HotplugVolumes featureGate within Kubevirt

You can use the following indications to gather context, create a suitable service account and retrieve its associated token:

To list the context at your disposal

kubectl config view -o jsonpath='{.contexts[*].name}'

To create a service account and give it privileges to handle vms,

SERVICEACCOUNT=xxx
kubectl create serviceaccount $SERVICEACCOUNT -n default
kubectl create clusterrolebinding $SERVICEACCOUNT --clusterrole=cluster-admin --user=system:serviceaccount:default:$SERVICEACCOUNT

To gather a token (in /tmp/token):

SERVICEACCOUNT=xxx
SECRET=`kubectl get sa $SERVICEACCOUNT -o jsonpath={.secrets[0].name}`
kubectl get secret $SECRET -o jsonpath={.data.token} | base64 -d

on openshift, you can simply use

oc whoami -t

kubectl is currently a hard requirement for consoles

To use this provider with kcli rpm, you’ll need to install python3-kubernetes rpm

Ovirt

myovirt:
 type: ovirt
 host: ovirt.default
 user: admin@internal
 password: prout
 datacenter: Default
 cluster: Default
 pool: Default
 org: YourOrg
 ca_file: ~/ovirt.pem
 imagerepository: ovirt-image-repository

The following parameters are specific to ovirt:

  • org Organization
  • ca_file Points to a local path with the cert of the ovirt engine host. It can be retrieved with curl "http://$HOST/ovirt-engine/services/pki-resource?resource=ca-certificate&format=X509-PEM-CA" > ~/.kcli/ovirt.pem
  • cluster Defaults to Default
  • datacenter Defaults to Default
  • filtervms Defaults to True. Only list vms created by kcli.
  • filteruser Defaults to False. Only list vms created by own user
  • filtertag Defaults to None. Only list vms created by kcli with the corresponding filter=filtertag in their description. Useful for environments when you share the same user
  • imagerepository (Optional). A Glance image provider repository to use to retrieve images. Defaults to ovirt-image-repository.

Note that pool in Ovirt context refers to storage domain.

To use this provider with kcli rpm, you’ll need to install

Deploying Ovirt dependencies with pip

You will need to get ovirt-engine-sdk-python . On fedora, for instance, you would run:

dnf -y copr enable karmab/kcli
yum -y install kcli gcc redhat-rpm-config python3-devel openssl-devel libxml2-devel libcurl-devel
export PYCURL_SSL_LIBRARY=openssl
pip3 install ovirt-engine-sdk-python

On rhel, set PYCURL_SSL_LIBRARY to nss instead

If you install manually from pip, you might need to install pycurl manually with the following line (and get openssl-dev headers)

pip install --no-cache-dir --global-option=build_ext --global-option="-L/usr/local/opt/openssl/lib" --global-option="-I/usr/local/opt/openssl/include"  pycurl

Openstack

myopenstack:
 type: openstack
 user: testk
 password: testk
 project: testk
 domain: Default
 auth_url: http://openstack:5000/v3
 ca_file: ~/ca-trust.crt

The following parameters are specific to openstack:

  • auth_url
  • project
  • domain
  • ca_file

To use this provider with kcli rpm, you’ll need to install the following rpms

  • python3-keystoneclient
  • python3-glanceclient
  • python3-cinderclient
  • python3-neutronclient
  • python3-novaclient
  • python3-swiftclient

Vsphere

myvsphere:
 type: vsphere
 host: xxx-vcsa67.vcenter.e2e.karmalabs.com
 user: administrator@karmalabs.com
 password: mypassword
 datacenter: Madrid
 cluster: xxx
 filtervms: true
 pool: mysuperdatastore

The following parameters are specific to vsphere:

  • cluster.
  • datacenter Defaults to Default
  • filtervms Defaults to True. Only list vms created by kcli. Useful for environments when you are superadmin and have a ton of vms!!!

Note that pool in Vsphere context refers to datastore.

To use this provider with kcli rpm, you’ll need to install python3-pyvmomi and python3-requests

Also note that kcli download will only upload OVAS, either from specified urls or gathering them in the case of rhcos/fcos.

Packet

myvpacket:
  type: packet
  auth_token: xxxx
  project: kcli
  facility: ams1
  tunnelhost: wilibonka.mooo.com

The following parameters are specific to packet:

  • auth_token.
  • project
  • facility. Can be omitted in which case you will have to specify on which facility to deploy vms.
  • tunnelhost. Optional. When creating vms using ignition, the generated ignition file will be copied to the tunnelhost so it can be served (typically via web)
  • tunneldir. Where to copy the ignition files when using a tunnelhost. Defaults to /var/www/html

To use this provider with kcli rpm, you’ll need to install packet-python from pip.

Usage

Basic workflow

Cloud Images from common distros aim to be the primary source for your vms kcli download image can be used to download a specific cloud image. for instance, centos7:

kcli download image centos7

at this point, you can deploy vms directly from the template, using default settings for the vm:

kcli create vm -i centos7 vm1

By default, your public key will be injected (using cloudinit) to the vm.

You can then access the vm using kcli ssh.

Kcli uses the default ssh_user according to the cloud image. To guess it, kcli checks the image name. So for example, your centos image must contain the term “centos” in the file name, otherwise “root” is used.

Using parameters, you can tweak the vm creation. All keywords can be used. For instance:

kcli create vm -i centos7 -P memory=2048 -P numcpus=2 vm1

You can also pass disks, networks, cmds (or any keyword, really):

kcli create vm -i centos7 -P disks=[10,20] -P nets=[default,default] -P cmds=[yum -y install nc] vm1

You can use the following to get a list of available keywords, and their default value

kcli get keyword

Profiles configuration

Instead of passing parameters this way, you can use profiles.

Profiles are meant to help creating single vm with preconfigured settings (number of CPUS, memory, size of disk, network, whether to use a template, extra commands to run on start, whether reserving dns,….)

You use the file ~/.kcli/profiles.yml to declare your profiles. Here’s a snippet declaring the profile centos:

mycentos:
 image: CentOS-7-x86_64-GenericCloud.qcow2
 numcpus: 2
 disks:
  - size: 10
 reservedns: true
 nets:
  - name: default
 cmds:
  - echo unix1234 | passwd --stdin root

With this section, you can use the following to create a vm

kcli create vm -p mycentos myvm

You can use the profile file sample to get you started

Note that when you download a given cloud image, a minimal associated profile is created for you.

Cloudinit/Ignition support

Cloudinit is enabled by default and handles static networking configuration, hostname setting, injecting ssh keys and running specific commands and entire scripts, and copying entire files.

For vms based on coreos, ignition is used instead of cloudinit although the syntax is the same. If $name.ign or $plan.ign are found in the current directory, their content will be merged. The extension .cloudinit does the same for cloudinit.

To ease openshift deployment, when a node has a name in the $cluster-role-$num, where role can either be master, worker or bootstrap, additional paths are searched, namely $cluster-$role.ign, clusters/$cluster/$role.ign and $HOME/.kcli/clusters/$cluster/$role.ign

For ignition support on ovirt, you will need a version of ovirt >= 4.3.4. Note that this requires to use an openstack based rhcos image.

Typical commands

  • List vms
    • kcli list vm
  • List cloud images
    • kcli list images
  • Create vm from a profile named base7
    • kcli create vm -p base7 myvm
  • Create vm from profile base7 on a specific client/host named twix
    • kcli -C twix create vm -p base7 myvm
  • Delete vm
    • kcli delete vm vm1
  • Do the same without having to confirm
    • kcli delete vm vm1 --yes
  • Get detailed info on a specific vm
    • kcli info vm vm1
  • Start vm
    • kcli start vm vm1
  • Stop vm
    • kcli stop vm vm1
  • Switch active client/host to bumblefoot
    • kcli switch host bumblefoot
  • Get remote-viewer console
    • kcli console vm vm1
  • Get serial console (over TCP). Requires the vms to have been created with kcli and netcat client installed on hypervisor
    • kcli console vm -s vm1
  • Deploy multiple vms using plan x defined in x.yml file
    • kcli create plan -f x.yml x
  • Delete all vm from plan x
    • kcli delete plan x
  • Add 5GB disk to vm1, using pool named images
    • kcli create vm-disk -s 5 -p images vm1
  • Delete disk named vm1_2.img from vm1
    • kcli delete disk --vm vm1 vm1_2.img
  • Update memory in vm1 to 2GB memory
    • kcli update vm -m 2048 vm1
  • Clone vm1 to new vm2
    • kcli clone vm -b vm1 vm2
  • Connect with ssh to vm vm1
    • kcli ssh vm vm1
  • Create a new network
    • kcli create network -c 192.168.7.0/24 mynet
  • Create new pool
    • kcli create pool -t dir -p /hom/images images
  • Add a new nic from network default to vm1
    • kcli create nic -n default vm1
  • Delete nic eth2 from vm
    • kcli delete nic -i eth2 vm1
  • Create snapshot named snap1 for vm1:
    • kcli create snapshot vm -n vm1 snap1
  • Get info on your kvm setup
    • kcli info host
  • Export vm:
    • kcli export vm vm1

Omitting vm’s name

When you don’t specify a vm, the last one created by kcli on the corresponding client is used (the list of the vms created is stored in ~/.kcli/vm)

So for instance, you can simply use the following command to access your vm:

kcli ssh

How to use the web version

Launch the following command and access your machine at port 9000:

kweb

Multiple clients

If you have multiple hypervisors/clients, you can generally use the flag -C $CLIENT to point to a specific one.

You can also use the following to list the vms of all your hosts/clients:

kcli -C all list vm

plans

You can also define plan which are files in yaml with a list of profiles, vms, disks, and networks and vms to deploy.

The following types can be used within a plan:

  • vm (this is the type used when none is specified)
  • image
  • network
  • disk
  • pool
  • profile
  • ansible
  • container
  • dns
  • plan (so you can compose plans from several urls)
  • kube

plan types

Here are some examples of each type (additional ones can be found in this samples directory):

network

mynet:
 type: network
 cidr: 192.168.95.0/24

You can also use the boolean keyword dhcp (mostly to disable it) and isolated . When not specified, dhcp and nat will be enabled

image

CentOS-7-x86_64-GenericCloud.qcow2:
 type: image
 url: http://cloud.centos.org/centos/7/images/CentOS-7-x86_64-GenericCloud.qcow2

If you point to an url not ending in qcow2/qc2 (or img), your browser will be opened for you to proceed. Also note that you can specify a command with the cmd key, so that virt-customize is used on the template once it’s downloaded.

disk

share1.img:
 type: disk
 size: 5
 pool: vms
 vms:
  - centos1
  - centos2

Here the disk is shared between two vms (that typically would be defined within the same plan):

pool

mypool:
  type: pool
  path: /home/mypool

profile

myprofile:
  type: profile
  template: CentOS-7-x86_64-GenericCloud.qcow2
  memory: 3072
  numcpus: 1
  disks:
   - size: 15
   - size: 12
  nets:
   - default
  pool: default

ansible

myplay:
 type: ansible
 verbose: false
 playbook: prout.yml
 groups:
   nodes:
   - node1
   - node2
   masters:
   - master1
   - master2
   - master3

An inventory will be created for you in /tmp and that group_vars and host_vars directory are taken into account. You can optionally define your own groups, as in this example. The playbooks are launched in alphabetical order

container

centos:
 type: container
  image: centos
  cmd: /bin/bash
  ports:
   - 5500
  volumes:
   - /root/coco

Look at the container section for details on the parameters

plan’s plan ( Also known as inception style)

ovirt:
  type: plan
  url: github.com/karmab/kcli-plans/ovirt/upstream.yml
  run: true

You can alternatively provide a file attribute instead of url pointing to a local plan file:

dns

yyy:
 type: dns
 net: default
 ip: 192.168.1.35

vms

You can point at an existing profile in your plans, define all parameters for the vms, or combine both approaches. You can even add your own profile definitions in the plan file and reference them within the same plan:

big:
  type: profile
  template: CentOS-7-x86_64-GenericCloud.qcow2
  memory: 6144
  numcpus: 1
  disks:
   - size: 45
  nets:
   - default
  pool: default

myvm:
  profile: big

Specific scripts and IPS arrays can be used directly in the plan file (or in profiles one).

The kcli-plans repo contains samples to get you started, along with plans for projects I often use (openshift, kubevirt,openstack, ovirt, …).

When launching a plan, the plan name is optional. If none is provided, a random one will be used.

If no plan file is specified with the -f flag, the file kcli_plan.yml in the current directory will be used.

When deleting a plan, the network of the vms will also be deleted if no other vm are using them. You can prevent this by setting keepnetworks to true in your configuration.

Remote plans

You can use the following command to execute a plan from a remote url:

kcli create plan --url https://raw.githubusercontent.com/karmab/kcli-plans/master/ovirt/upstream.yml

Disk parameters

You can add disk this way in your profile or plan files:

disks:
 - size: 20
   pool: vms
 - size: 10
   thin: False
   interface: ide

Within a disk section, you can use the word size, thin and format as keys.

  • thin Value used when not specified in the disk entry. Defaults to true
  • interface Value used when not specified in the disk entry. Defaults to virtio. Could also be ide, if vm lacks virtio drivers

Network parameters

You can mix simple strings pointing to the name of your network and more complex information provided as hash. For instance:

nets:
 - default
 - name: private
   nic: eth1
   ip: 192.168.0.220
   mask: 255.255.255.0
   gateway: 192.168.0.1

Within a net section, you can use name, nic, IP, mac, mask, gateway and alias as keys. type defaults to virtio but you can specify anyone (e1000,….).

You can also use noconf: true to only add the nic with no configuration done in the vm.

the ovs: true allows you to create the nic as ovs port of the indicated bridge. Not that such bridges have to be created independently at the moment

You can provide network configuration on the command line when creating a single vm with -P ip1=… -P netmask1=… -P gateway=…

ip, dns and host Reservations

If you set reserveip to True, a reservation will be made if the corresponding network has dhcp and when the provided IP belongs to the network range.

You can set reservedns to True to create a dns entry for the vm in the corresponding network ( only done for the first nic).

You can set reservehost to True to create an entry for the host in /etc/hosts ( only done for the first nic). It’s done with sudo and the entry gets removed when you delete the vm. On macosx, you should use gnu-sed ( from brew ) instead of regular sed for proper deletion.

If you dont want to be asked for your sudo password each time, here are the commands that are escalated:

- echo .... # KVIRT >> /etc/hosts
- sed -i '/.... # KVIRT/d' /etc/hosts

Docker/Podman support in plans

Docker/Podman support is mainly enabled as a commodity to launch some containers along vms in plan files. Of course, you will need docker or podman installed on the client. So the following can be used in a plan file to launch a container:

centos:
 type: container
  image: centos
  cmd: /bin/bash
  ports:
   - 5500
  volumes:
   - /root/coco

The following keywords can be used:

  • image name of the image to pull.
  • cmd command to run within the container.
  • ports array of ports to map between host and container.
  • volumes array of volumes to map between host and container. You can alternatively use the keyword disks. You can also use more complex information provided as a hash

Within a volumes section, you can use path, origin, destination and mode as keys. mode can either be rw o ro and when origin or destination are missing, path is used and the same path is used for origin and destination of the volume. You can also use this typical docker syntax:

volumes:
 - /home/cocorico:/root/cocorico

Additionally, basic commands ( start, stop, console, plan, list) accept a –container flag.

Also note that while python sdk is used when connecting locally, commands are rather proxied other ssh when using a remote hypervisor ( reasons beeing to prevent mismatch of version between local and remote docker and because enabling remote access for docker is considered insecure and needs some uncommon additional steps ).

Finally, note that if using the docker version of kcli against your local hypervisor , you’ll need to pass a docker socket:

docker run --rm -v /var/run/libvirt:/var/run/libvirt -v ~/.ssh:/root/.ssh -v /var/run/docker.sock:/var/run/docker.sock karmab/kcli

Exposing a plan

Basic functionality

You can expose through web a single plan with kcli expose so that others can make use of some infrastructure you own without having to deal with kcli themseleves.

The user will be presented with a simple UI with a listing of the current vms of the plan and buttons allowing to either delete the plan or reprovision it.

To expose your plan (with an optional list of parameters):

kcli expose plan -f your_plan.yml -P param1=value1 -P param2=value plan_name

The indicated parameters are the ones from the plan that you want to expose to the user upon provisioning, with their corresponding default value.

When the user reprovisions, In addition to those parameters, he will be able to specify:

  • a list of mail addresses to notify upon completion of the lab provisioning. Note it requires to properly set notifications in your kcli config.
  • an optional owner which will be added as metadata to the vms, so that it’s easy to know who provisioned a given plan

Precreating a list of plans

If you’re running the same plan with different parameter files, you can simply create them in the directory where your plan lives, naming them parameters_XXX.yml (or .yaml). The UI will then show you those as separated plans so that they can be provisioned individually applying the corresponding values from the parameter files (after merging them with the user provided data).

Using several clients

You can have the expose feature handling several clients at once. For this, launch the expose command with the flag -C to indicate several clients ( for instance -C twix,bumblefoot) and put your parameter files under a dedicated directory matching the client name. The code will then select the proper client for create/delete operations and report the vms belonging to those plans from the different clients declared.

Using expose feature from a web server

You can use mod_wsgi with httpd or similar mechanisms to use the expose feature behind a web server so that you serve content from a specific port or add layer of security like htpasswd provided from outside the code.

For instance, you could create the following kcli.conf in apache

<VirtualHost *>
    WSGIScriptAlias / /var/www/kcli.wsgi
    <Directory /var/www/kcli>
        Order deny,allow
        Allow from all
    </Directory>
#    <Location />
#   AuthType Basic
#   AuthName "Authentication Required"
#   AuthUserFile "/var/www/kcli.htpasswd"
#   Require valid-user
#    </Location>
</VirtualHost>
import logging
import os
import sys
from kvirt.config import Kconfig
from kvirt.expose import Kexposer
logging.basicConfig(stream=sys.stdout)

os.environ['HOME'] = '/usr/share/httpd'
inputfile = '/var/www/myplans/plan1.yml'
overrides = {'param1': 'jimi_hendrix', 'param2': False}
config = Kconfig()
extraconfigs = {}
for extraclient in config.extraclients:
    extraconfigs[extraclient] = Kconfig(client=extraclient)
kexposer = Kexposer(config, 'myplan', inputfile, overrides=overrides, extraconfigs=extraconfigs)
application = kexposer.app
application.secret_key = ‘XXX’

Note that further configuration will tipically be needed for apache user so that kcli can be used with it

In the example invocation, the directive config = KConfig() can be changed to config = Kconfig('client1,client2') to handle several clients at once

An alternative is to create different WSGI applications and tweak the WSGIScriptAlias to serve them from different paths.

Overriding parameters

You can override parameters in:

  • commands
  • scripts
  • files
  • plan files
  • profiles

For that, you can pass in kcli vm or kcli plan the following parameters:

  • -P x=1 -P y=2 and so on .
  • –paramfile - In this case, you provide a yaml file ( and as such can provide more complex structures ).

The indicated objects are then rendered using jinja.

centos:
 template: CentOS-7-x86_64-GenericCloud.qcow2
 cmds:
  - echo x={{ x }} y={{ y }} >> /tmp/cocorico.txt
  - echo {{ password | default('unix1234') }} | passwd --stdin root

You can make the previous example cleaner by using the special key parameters in your plans and define there variables:

parameters:
 password: unix1234
 x: coucou
 y: toi
centos:
 template: CentOS-7-x86_64-GenericCloud.qcow2
 cmds:
  - echo x={{ x }} y={{ y }} >> /tmp/cocorico.txt
  - echo {{ password  }} | passwd --stdin root

Finally note that you can also use advanced jinja constructs like conditionals and so on. For instance:

parameters:
  net1: default
vm4:
  template: CentOS-7-x86_64-GenericCloud.qcow2
  nets:
    - {{ net1 }}
{% if net2 is defined %}
    - {{ net2 }}
{% endif %}

Also, you can reference a baseplan file in the parameters section, so that parameters are concatenated between the base plan file and the current one:

parameters:
   baseplan: upstream.yml
   xx_version: v0.7.0

Keyword Parameters

Specific parameters for a client

Parameter Default Value Comments
host 127.0.0.1  
port   Defaults to 22 if ssh protocol is used
user root  
protocol ssh  
url   can be used to specify an exotic qemu url
tunnel False make kcli use tunnels for console and for ssh access
keep_networks False make kcli keeps networks when deleting plan

Available parameters for client/profile/plan files

Parameter Default Value Comments
client None Allows to target a different client/host for the corresponding entry
virttype None Only used for libvirt where it evaluates to kvm if acceleration shows in capabilities, or qemu emulation otherwise. If a value is provided, it must be either kvm, qemu, xen or lxc
cpumodel host-model  
cpuflags [] You can specify a list of strings with features to enable or use dict entries with name of the feature and policy either set to require,disable, optional or force. The value for vmx is ignored, as it’s handled by the nested flag
numcpus 2  
cpuhotplug False  
numamode None numamode to apply to the workers only.
cpupinning [] cpupinning conf to apply
memory 512M  
memoryhotplug False  
flavor   Specific to gcp, aws, openstack and packet
guestid guestrhel764  
pool default  
image None Should point to your base cloud image(optional). You can either specify short name or complete path. If you omit the full path and your image lives in several pools, the one from last (alphabetical) pool will be used\
diskinterface virtio You can set it to ide if using legacy operating systems
diskthin True  
disks [] Array of disks to define. For each of them, you can specify pool, size, thin (as boolean), interface (either ide or virtio) and a wwn.If you omit parameters, default values will be used from config or profile file (You can actually let the entire entry blank or just indicate a size number directly)
iso None  
nets [] Array of networks to define. For each of them, you can specify just a string for the name, or a dict containing name, public and alias and ip, mask and gateway, and bridge. Any visible network is valid, in particular bridge networks can be used on libvirt, beyond regular nat networks
gateway None  
dns None Dns server
domain None Dns search domain
start true  
vnc false if set to true, vnc is used for console instead of spice
cloudinit true  
reserveip false  
reservedns false  
reservehost false  
keys [] Array of ssh public keys to inject to th vm
cmds [] Array of commands to run
profile None name of one of your profile
scripts [] array of paths of custom script to inject with cloudinit. It will be merged with cmds parameter. You can either specify full paths or relative to where you’re running kcli. Only checked in profile or plan file
nested True  
sharedkey False Share a private/public key between all the nodes of your plan. Additionally, root access will be allowed
privatekey False Inject your private key to the nodes of your plan
files [] Array of files to inject to the vm. For each of them, you can specify path, owner ( root by default) , permissions (600 by default ) and either origin or content to gather content data directly or from specified origin. When specifying a directory as origin, all the files it contains will be parsed and added
insecure True Handles all the ssh option details so you don’t get any warnings about man in the middle
client None Allows you to create the vm on a specific client. This field is not used for other types like network
base None Allows you to point to a parent profile so that values are taken from parent when not found in the current profile. Scripts and commands are rather concatenated between default, father and children
tags [] Array of tags to apply to gcp instances (usefull when matched in a firewall rule). In the case of kubevirt, it s rather a dict of key=value used as node selector (allowing to force vms to be scheduled on a matching node)
networkwait 0 Delay in seconds before attempting to run further commands, to be used in environments where networking takes more time to come up
rhnregister None Auto registers vms whose template starts with rhel Defaults to false. Requires to either rhnuser and rhnpassword, or rhnactivationkey and rhnorg, and an optional rhnpool
rhnserver https://subscription.rhsm.redhat.com Red Hat Network server (for registering to a Satellite server)
rhnuser None Red Hat Network user
rhnpassword None Red Hat Network password
rhnactivationkey None Red Hat Network activation key
rhnorg None Red Hat Network organization
rhnpool None Red Hat Network pool
enableroot true Allows ssh access as root user
storemetadata false Creates a /root/.metadata yaml file whith all the overrides applied. On gcp, those overrides are also stored as extra metadata
sharedfolders [] List of paths to share between a kvm hypervisor and vm. You will also make sure that the path is accessible as qemu user (typically with id 107) and use an hypervisor and a guest with 9p support (centos/rhel lack it)
yamlinventory false Ansible generated inventory for single vms or for plans containing ansible entries will be yaml based.
autostart false Autostarts vm (libvirt specific)
kernel None Kernel location to pass to the vm. Needs to be local to the hypervisor
initrd None Initrd location to pass to the vm. Needs to be local to the hypervisor
cmdline None Cmdline to pass to the vm
pcidevices [] array of pcidevices to passthrough to the first worker only. Check here for an example
tpm false Enables a TPM device in the vm, using emulator mode. Requires swtpm in the host
rng false Enables a RNG device in the vm
notify false Sends result of a command or a script run from the vm to one of the supported notify engines
notifymethod [pushbullet] Array of notify engines. Other options are slack and mail
notifycmd None Which command to run for notification. If none is provided and no notifyscript either, defaults to sending last 100 lines of the cloudinit file of the machine, or ignition for coreos based vms
notifyscript None Script to execute on the vm and whose output will be sent to notification engines
pushbullettoken None Token to use when notifying through pushbullet
slacktoken None Token to use when notifying through slack. Should be the token of an app generated in your workspace
slackchannel None Slack Channel where to send the notification
mailserver None Mail server where to send the notification (on port 25)
mailfrom None Mail address to send mail from
mailto [] List of mail addresses to send mail to
zerotier_net [] List of zerotier public networks where to join. Will trigger installation of zerotier on the node
zerotier_kubelet False Whether to configure kubelet to use the first zerotier address as node ip
playbook False Generates a playbook for the vm of the plan instead of creating it. Useful to run parts of a plan on baremetal
vmrules [] List of rules with an associated dict to apply for the corresponding entry, if a regex on the entry name is matched. The profile of the matching vm will be updated with the content of the rule

Ansible support

klist.py is provided as a dynamic inventory for ansible.

The script uses sames conf as kcli (and as such defaults to local if no configuration file is found).

vms will be grouped by plan, or put in the kvirt group if they dont belong to any plan.

Try it with:

klist.py --list
KLIST=$(which klist.py)
ansible all -i $KLIST -m ping

If you’re using kcli as a container, you will have to create a script such as the following to properly call the inventory.

#!/bin/bash
docker run -it --security-opt label:disable -v ~/.kcli:/root/.kcli -v /var/run/libvirt:/var/run/libvirt --entrypoint=/usr/bin/klist.py karmab/kcli $@

Additionally, there are ansible kcli modules in ansible-kcli-modules repository, with sample playbooks:

  • kvirt_vm allows you to create/delete vm (based on an existing profile or a template)
  • kvirt_plan allows you to create/delete a plan
  • kvirt_product allows you to create/delete a product (provided you have a product repository configured)
  • kvirt_info allows you to retrieve a dict of values similar to kcli info output. You can select which fields to gather

Those modules rely on python3 so you will need to pass -e 'ansible_python_interpreter=path_to_python3' to your ansible-playbook invocations ( or set it in your inventory) if your default ansible installation is based on python2.

Both kvirt_vm, kvirt_plan and kvirt_product support overriding parameters:

- name: Deploy fission with additional parameters
  kvirt_product:
    name: fission
    product: fission
    parameters:
     fission_type: all
     docker_disk_size: 10

Finally, you can use the key ansible within a profile:

ansible:
 - playbook: frout.yml
   verbose: true
   variables:
    - x: 8
    - z: 12

In a plan file, you can also define additional sections with the ansible type and point to your playbook, optionally enabling verbose and using the key hosts to specify a list of vms to run the given playbook instead.

You wont define variables in this case, as you can leverage host_vars and groups_vars directory for this purpose.

myplay:
 type: ansible
 verbose: false
 playbook: prout.yml

When leveraging ansible this way, an inventory file will be generated on the fly for you and let in /tmp/$PLAN.inv.

You can set the variable yamlinventory to True at default, host or profile level if you want the generated file to be yaml based. In this case, it will be named /tmp/$PLAN.inv.yaml.

Using products

To easily share plans, you can make use of the products feature which leverages them:

Repos

First, add a repo containing a KMETA file with yaml info about products you want to expose. For instance, mine

kcli create repo -u https://github.com/karmab/kcli-plans karmab

You can also update later a given repo, to refresh its KMETA file ( or all the repos, if not specifying any)

kcli update repo REPO_NAME

You can delete a given repo with

kcli delete repo REPO_NAME

Product

Once you have added some repos, you can list available products, and get their description

kcli list products

You can also get direct information on the product (memory and cpu used, number of vms deployed and all parameters that can be overriden)

kcli info product YOUR_PRODUCT

And deploy any product. Deletion is handled by deleting the corresponding plan.

kcli create product YOUR_PRODUCT

Deploying kubernetes/openshift clusters (and applications on top!)

You can deploy generic kubernetes (based on kubeadm), k3s or openshift/okd on any platform and on an arbitrary number of masters and workers. The cluster can be scaled aferwards too.

Getting information on available parameters

For each supported platform, you can use kcli info kube

For instance, kcli info kube generic will provide you all the parameters available for customization for generic kubernetes clusters.

Deploying generic kubernetes clusters

kcli create kube generic -P masters=X -P workers=Y $cluster

Deploying openshift/okd clusters

DISCLAIMER: This is not supported in anyway by Red Hat.

for Openshift, the official installer is leveraged with kcli creating the vms instead of Terraform, and injecting some extra pods to provide a vip and self contained dns.

The main benefits of deploying Openshift with kcli are:

  • Easy vms tuning.
  • Single workflow regardless of the target platform
  • Self contained dns. (For cloud platforms, cloud public dns is leveraged instead)
  • For libvirt, no need to compile installer or tweak libvirtd.
  • Vms can be connected to a physical bridge.
  • Multiple clusters can live on the same l2 network.

Requirements

  • Valid pull secret (for downstream)
  • Ssh public key.
  • Write access to /etc/hosts file to allow editing of this file.
  • An available ip in your vm’s network to use as api_ip. Make sure it is excluded from your dhcp server.
  • Direct access to the deployed vms. Use something like this otherwise sshuttle -r your_hypervisor 192.168.122.0/24 -v).
  • Target platform needs:
    • Ignition support
      • (for Ovirt/Rhv, this means >= 4.4).
      • For Libvirt, support for fw_cfg in qemu (install qemu-kvm-ev on centos for instance).
    • On Openstack:
      • swift available on the install.
      • a flavor. You can create a dedicated one with openstack flavor create --id 6 --ram 32768 --vcpus 16 --disk 30 m1.openshift
      • a port on target network mapped to a floating ip. If not specified with api_ip and public_api_ip parameters, the second-to-last ip from the network will be used.
  • For ipv6, you run the following sysctl net.ipv6.conf.all.accept_ra=2

How to Use

Create a parameters.yml

Prepare a parameter file with the folloving variables:

Parameter Default Value Comments
version nightly You can choose between nightly, ci or stable. ci requires specific data in your secret
tag 4.5  
pull_secret openshift_pull.json  
image rhcos45 rhcos image to use (should be qemu for libvirt/kubevirt and openstack one for ovirt/openstack)
helper_image CentOS-7-x86_64-GenericCloud.qcow2 which image to use when deploying temporary helper vms
network default Any existing network can be used
api_ip None  
ingress_ip None  
masters 1 number of masters
workers 0 number of workers
fips False  
cluster testk  
domain karmalabs.com For cloud platforms, it should point to a domain name you have access to
network_type OpenShiftSDN  
minimal False  
pool default  
flavor None  
flavor_bootstrap None  
flavor_master None  
flavor_worker None  
numcpus 4  
bootstrap_numcpus None  
master_numcpus None  
worker_numcpus None  
memory 8192  
bootstrap_memory None  
master_memory None  
worker_memory None  
master_tpm False  
master_rng False  
worker_tpm False  
worker_rng False  
disk_size 30 disk size in Gb for final nodes
autostart False  
keys []  
apps []  
extra_disks []  
extra_master_disks []  
extra_worker_disks []  
extra_networks []  
extra_master_networks []  
extra_worker_networks []  
master_macs []  
master_ips []  
bootstrap_mac None  
bootstrap_ip None  
worker_macs []  
worker_ips []  
pcidevices None array of pcidevices to passthrough to the first worker only. Check here for an example
numa None numa conf dictionary to apply to the workers only. Check here for an example
numa_master None  
numa_worker None  
numamode None  
numamode_master None  
numamode_worker None  
cpupinning None  
cpupinning_master None  
cpupinning_worker None  
disconnected_url None  
disconnected_user None  
disconnected_password None  
imagecontentsources []  
ca None optional string of certificates to trust
ipv6 False  
baremetal False Whether to also deploy the metal3 operator, for provisioning physical workers
baremetal_machine_cidr None  
provisioning_net provisioning  
provisioning_nic ens4  
cloud_tag None  
cloud_scale False  
cloud_api_internal False  
apps [] Extra applications to deploy on the cluster, available ones are visible with kcli list app openshift

Deploying

kcli create kube openshift --paramfile parameters.yml $cluster
  • You will be asked for your sudo password in order to create a /etc/hosts entry for the api vip.
  • Once that finishes, set the following environment variable in order to use oc commands export KUBECONFIG=clusters/$cluster/auth/kubeconfig

Providing custom machine configs

If a manifests directory exists in the current directory, the *yaml assets found there are copied to the directory generated by the install, prior to deployment.

Architecture

Check This documentation

Adding more workers

The procedure is the same independently of the type of cluster used.

kcli scale kube <generic|openshift|okd|k3s> -w num_of_workers --paramfile parameters.yml $cluster

Interacting with your clusters

All generated assets for a given cluster are stored in $HOME/.kcli/clusters/$cluster.

In particular, the kubeconfig file to use to interact with the cluster is stored at $HOME/.kcli/clusters/$cluster/auth/kubeconfig

Cleaning up

The procedure is the same independently of the type of cluster used.

kcli delete kube $cluster

Deploying applications on top of kubernetes/openshift

You can use kcli to deploy applications on your kubernetes/openshift (regardless of whether it was deployed with kcli)

Applications such as the following one are currently supported:

  • argocd
  • kubevirt
  • rook
  • istio
  • knative
  • tekton

To list applications available on generic kubernetes, run:

kcli list kube generic

To list applications available on generic openshift, run:

kcli list kube openshift

For any of the supported applications, you can get information on the supported parameters with:

kcli info app generic|openshift $app_name

To deploy an app, use the following, with additional parameters passed in the command line or in a parameter file:

kcli create app generic|openshift $app_name

Applications can be deleted the same way:

kcli delete app generic|openshift $app_name

Running on kubernetes/openshift

You can run the container on those platforms and either use the web interface or log in the pod to run kcli commandline

On openshift, you’ll need to run first those extra commands:

oc new-project kcli
oc adm policy add-scc-to-user anyuid system:serviceaccount:kcli:default
oc expose svc kcli

Then:

kubectl create configmap kcli-config --from-file=~/.kcli
kubectl create configmap ssh-config --from-file=~/.ssh
kubectl create -f https://raw.githubusercontent.com/karmab/kcli/master/extras/k8sdeploy.yml

Alternatively, look at https://github.com/karmab/kcli-controller for a controller/operator handling vms and plans as crds and creating the corresponding assets with kcli/kvirt library.

Using Jenkins

Requisites

  • Jenkins running somewhere, either:
    • standalone
    • on K8s/Openshift
  • Docker running if using this backend
  • Podman installed if using this backend

Credentials

First, create the following credentials in Jenkins as secret files:

  • kcli-config with the content of your ~/.kcli/config.yml
  • kcli-id-rsa with your ssh private key
  • kcli-id-rsa-pub with your ssh public key

You can use arbitrary names for those credentials, but you will then have to either edit Jenkinsfile later or specify credentials when running your build.

Kcli configuration

Default backend is podman . If you want to use Docker or Kubernetes instead, add the corresponding snippet in ~/.kcli/config.yml.

For instance, for Kubernetes:

jenkinsmode: kubernetes

Create Jenkins file

Now you can create a Jenkinsfile from your specific, or from default kcli_plan.yml

kcli create pipeline

You can see an example of the generated Jenkinsfile for both targets from the sample plan provided in this directory.

Parameters from the plan get converted in Jenkins parameters, along with extra parameters: - for needed credentials (kcli config file, public and private ssh key) - a wait boolean to indicated whether to wait for plan completion upon run. - a kcli_client parameter that can be used to override the target client where to launch plan at run time.

Your Jenkinsfile is ready for use!

Openshift

You can create credentials as secrets and tag them so they get synced to Jenkins:

oc create secret generic kcli-config-yml --from-file=filename=config.yml
oc annotate secret/kcli-config-yml jenkins.openshift.io/secret.name=kcli-config-yml
oc label secret/kcli-config-yml credential.sync.jenkins.openshift.io=true

oc create secret generic kcli-id-rsa --from-file=filename=~/.ssh/id_rsa
oc annotate secret/kcli-id-rsa jenkins.openshift.io/secret.name=kcli-id-rsa
oc label secret/kcli-id-rsa credential.sync.jenkins.openshift.io=true

oc create secret generic kcli-id-rsa-pub --from-file=filename=$HOME/.ssh/id_rsa.pub
oc annotate secret/kcli-id-rsa-pub jenkins.openshift.io/secret.name=kcli-id-rsa-pub
oc label secret/kcli-id-rsa-pub credential.sync.jenkins.openshift.io=true

You will also need to allow anyuid scc for kcli pod, which can be done with the following command (adjust to your project):

PROJECT=kcli
oc adm policy add-scc-to-user anyuid system:serviceaccount:$PROJECT:default

Auto Completion

You can enable autocompletion if running kcli from package or pip. It’s enabled by default when running kclishell container alias

Bash/Zsh

Add the following line in one of your shell files (.bashrc, .zshrc, …)

eval "$(register-python-argcomplete kcli)"

Fish

Add the following snippet in .config/fish/config.fish

function __fish_kcli_complete
    set -x _ARGCOMPLETE 1
    set -x _ARGCOMPLETE_IFS \n
    set -x _ARGCOMPLETE_SUPPRESS_SPACE 1
    set -x _ARGCOMPLETE_SHELL fish
    set -x COMP_LINE (commandline -p)
    set -x COMP_POINT (string length (commandline -cp))
    set -x COMP_TYPE
    if set -q _ARC_DEBUG
        kcli 8>&1 9>&2 1>/dev/null 2>&1
    else
        kcli 8>&1 9>&2 1>&9 2>&1
    end
end
complete -c kcli -f -a '(__fish_kcli_complete)'

Api Usage

Locally

You can also use kvirt library directly, without the client or to embed it into your own application.

Here’s a sample:

from kvirt.config import Kconfig
config = Kconfig()
k = config.k

You can then either use config for high level actions or the more low level k object.

Using grpc

Server side

Kcli provides an api using grpc protocol. This allows to run one or several instances of kcli as proxies and use a lightweight client written in the language of your choice.

To make use of it:

  • On a node with kcli installed, launch krpc. If installing from rpm, you will need python3-grpcio package which:
    • comes out of the box on fedora
    • is available through RDO repo for centos8/rhel8
  • On the client side, you can then access the api by targetting port 50051 of the server node (in insecure mode)

Note that the server doesn’t implement all the features yet. Most notably, create_plan isn’t available at the moment. Check the following doc to see the status of the implementation.

Client side

  • You can use a GRPC client such grpcurl. To list services, you need krpc to have grpcio-reflection package, which is only available through pip (and is installed when running kcli as container). You can use grpcurl -plaintext $KCLI_SERVER:50051 list to see objects at your disposal.
  • kclirpc can be used as a cli mimicking kcli but with grpc calls.
  • There is also a terraform provider for kcli using GRPC you can get from here

API documentation