# Copyright 2012-2021 Canonical Ltd. This software is licensed under the # GNU Affero General Public License version 3 (see the file LICENSE). # lxd / maas issue. either upgrade lxd or maas to 3.1 sudo snap switch --channel=latest/stable lxd sudo snap refresh lxd sudo snap install jq sudo snap install --channel=3.1/edge maas sudo snap install --channel=3.1/edge maas-test-db # clone the git repository cd ~ git clone https://github.com/antongisli/maas-baremetal-k8s-tutorial.git # get local interface name (this assumes a single default route is present) export INTERFACE=$(ip route | grep default | cut -d ' ' -f 5) export IP_ADDRESS=$(ip -4 addr show dev $INTERFACE | grep -oP '(?<=inet\s)\d+(\.\d+){3}') sudo sed -i 's/#net.ipv4.ip_forward=1/net.ipv4.ip_forward=1/' /etc/sysctl.conf sudo sysctl -p sudo iptables -t nat -A POSTROUTING -o $INTERFACE -j SNAT --to $IP_ADDRESS #TODO inbound port forwarding/load balancing # Persist NAT configuration echo iptables-persistent iptables-persistent/autosave_v4 boolean true | sudo debconf-set-selections echo iptables-persistent iptables-persistent/autosave_v6 boolean true | sudo debconf-set-selections sudo apt-get install iptables-persistent -y # LXD init sudo cat maas-baremetal-k8s-tutorial/lxd.conf | lxd init --preseed # verify LXD network config lxc network show lxdbr0 # Wait for LXD to be ready lxd waitready # Initialise MAAS sudo maas init region+rack --database-uri maas-test-db:/// --maas-url http://${IP_ADDRESS}:5240/MAAS sleep 15 # Create MAAS admin and grab API key sudo maas createadmin --username admin --password admin --email admin export APIKEY=$(sudo maas apikey --username admin) # MAAS admin login maas login admin 'http://localhost:5240/MAAS/' $APIKEY # Configure MAAS networking (set gateways, vlans, DHCP on etc) export SUBNET=10.10.10.0/24 export FABRIC_ID=$(maas admin subnet read "$SUBNET" | jq -r ".vlan.fabric_id") export VLAN_TAG=$(maas admin subnet read "$SUBNET" | jq -r ".vlan.vid") export PRIMARY_RACK=$(maas admin rack-controllers read | jq -r ".[] | .system_id") maas admin subnet update $SUBNET gateway_ip=10.10.10.1 maas admin ipranges create type=dynamic start_ip=10.10.10.200 end_ip=10.10.10.254 maas admin vlan update $FABRIC_ID $VLAN_TAG dhcp_on=True primary_rack=$PRIMARY_RACK maas admin maas set-config name=upstream_dns value=8.8.8.8 # Add LXD as a VM host for MAAS and capture the VM_HOST_ID export VM_HOST_ID=$(maas admin vm-hosts create password=password type=lxd power_address=https://${IP_ADDRESS}:8443 \ project=maas | jq '.id') # allow high CPU oversubscription so all VMs can use all cores maas admin vm-host update $VM_HOST_ID cpu_over_commit_ratio=4 # create tags for MAAS maas admin tags create name=juju-controller comment='This tag should to machines that will be used as juju controllers' maas admin tags create name=metal comment='This tag should to machines that will be used as bare metal' ### creating VMs for Juju controller and our "bare metal" # add a VM for the juju controller with minimal memory maas admin vm-host compose $VM_HOST_ID cores=8 memory=2048 architecture="amd64/generic" \ storage="main:16(pool1)" hostname="juju-controller" # get the system-id and tag the machine with "juju-controller" export JUJU_SYSID=$(maas admin machines read | jq '.[] | select(."hostname"=="juju-controller") | .["system_id"]' | tr -d '"') maas admin tag update-nodes "juju-controller" add=$JUJU_SYSID ## Create 3 "bare metal" machines and tag them with "metal" for ID in 1 2 3 do maas admin vm-host compose $VM_HOST_ID cores=8 memory=8192 architecture="amd64/generic" \ storage="main:25(pool1),ceph:100(pool1)" hostname="metal-${ID}" SYSID=$(maas admin machines read | jq -r --arg MACHINE "metal-${ID}" '.[] | select(."hostname"==$MACHINE) | .["system_id"]' | tr -d '"') maas admin tag update-nodes "metal" add=$SYSID done ### Juju setup (note, this section requires manual intervention) cd ~ sudo snap install juju --classic sed -i "s/IP_ADDRESS/$IP_ADDRESS/" maas-baremetal-k8s-tutorial/maas-cloud.yaml juju add-cloud --local maas-cloud maas-baremetal-k8s-tutorial/maas-cloud.yaml juju add-credential maas-cloud juju clouds --local juju credentials # Bootstrap the maas-cloud - get a coffee juju bootstrap maas-cloud --bootstrap-constraints "tags=juju-controller mem=2G" # fire up the juju gui to view the fun # if it's a remote machine, you can use an SSH tunnel to get access to it: # e.g. ssh ubuntu@x.x.x.x -L8080:10.10.10.2:17070 juju gui # get coffee # check jujus view of machines juju machines # add machines to juju from the maas cloud # it will grab the 3 we already created since they are in a "READY state" for ID in 1 2 3 do juju add-machine done # take a look at machines list again, should see 3 machines juju machines ### Ceph # deploy ceph-mon to LXD VMs inside our metal machines juju deploy -n 3 ceph-mon --to lxd:0,lxd:1,lxd:2 # deploy ceph-osd directly to the machines juju deploy --config maas-baremetal-k8s-tutorial/ceph-osd.yaml cs:ceph-osd -n 3 --to 0,1,2 # relate ceph-mon and ceph-osd juju add-relation ceph-mon ceph-osd # watch the fun (with a another coffee). watch -c juju status --color # Wait for Ceph to settle before proceeding ### Kubernetes # Deploy kubernetes-core with juju and re-use existing machines. juju deploy kubernetes-core --map-machines=existing,0=0,1=1 # add the new kubernetes as a cloud to juju mkdir ~/.kube juju scp kubernetes-master/0:/home/ubuntu/config ~/.kube/config # add storage relations juju add-relation ceph-mon:admin kubernetes-master juju add-relation ceph-mon:client kubernetes-master # add k8s to juju (choose option 1, client only) juju add-k8s my-k8s juju bootstrap my-k8s juju controllers ### Deploy a test application on K8s cluster # Create a model in juju, which creates a namespace in K8s juju add-model hello-kubecon # Deploy the charm "hello-kubecon", and set a hostname for the ingress juju deploy hello-kubecon --config juju-external-hostname=kubecon.test # Deploy the ingress integrator - this is a helper to setup the ingress juju deploy nginx-ingress-integrator ingress # trust the ingress (it needs cluster credentials to make changes) juju trust ingress --scope=cluster # Relate our app to the ingress - this causes the ingress to be setup juju relate hello-kubecon ingress # Explore the setup kubectl describe ingress -n hello-kubecon kubectl get svc -n hello-kubecon kubectl describe svc hello-kubecon-service -n hello-kubecon kubectl get pods -n hello-kubecon # Lastly, in order to be able to reach the service from outside our host machine, # we can use port forwarding. Replace 10.10.10.5 with the IP seen on the ingress. sudo iptables -t nat -A PREROUTING -p tcp -i enp6s0 \ --dport 8000 -j DNAT --to-destination 10.10.10.5:80 # if you want to persist this, run sudo dpkg-reconfigure iptables-persistent # Now you should be able to open a browser and navigate to http://$IP_ADDRESS:8000 # scale our kubernetes cluster - find a machine # Avoid kubernetes-master or existing kubernetes-worker machines # https://discourse.charmhub.io/t/scaling-applications/1075 juju switch maas-cloud-default juju status # add a kubernetes-worker juju add-unit kubernetes-worker --to 2 # add another kubecon unit juju switch my-k8s juju add-unit -n 1 hello-kubecon juju status # what happened to the ingress? kubectl get ingress -n hello-kubecon # exercise for the reader - iptables round robin or MetalLB:) # scale down hello-kubecon juju remove-unit --num-units 1 hello-kubecon # scaledown kubernetes juju switch maas-cloud-default juju remove-unit kubernetes-worker/1 juju status # if you want to test destroying your hello-kubecon: juju switch my-k8s juju destroy-model hello-kubecon --release-storage # if you want to destroy your kubenetes controller for juju juju switch maas-cloud-default juju destroy-controller my-k8s # if you want to remove your k8s cluster: juju switch maas-cloud-default juju remove-application kubernetes-master kubernetes-worker etcd flannel easyrsa # if you want to remove ceph juju switch maas-cloud-default juju remove-application ceph-mon ceph-osd # To clean up everything: juju destroy-controller -y --destroy-all-models --destroy-storage maas-cloud-default # And the machines created in MAAS can be deleted easily in the MAAS GUI. ### Reference materials notes # https://jaas.ai/ceph-base # https://jaas.ai/canonical-kubernetes/bundle/471 # https://medium.com/swlh/kubernetes-external-ip-service-type-5e5e9ad62fcd # https://charmhub.io/nginx-ingress-integrator # https://drive.google.com/file/d/1estQna40vz4uS5tBd9CvKdILdwAmcNFH/view - hello-kubecon # https://ubuntu.com/kubernetes/docs/troubleshooting - troubleshooting # https://juju.is/blog/deploying-mattermost-and-kubeflow-on-kubernetes-with-juju-2-9 ### END