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kube-keepalived-vip

Kubernetes Virtual IP address/es using keepalived

AKA "how to set up virtual IP addresses in kubernetes using IPVS - The Linux Virtual Server Project".

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Overview

There are 2 ways to expose a service in the current kubernetes service model:

  • Create a cloud load balancer.
  • Allocate a port (the same port) on every node in your cluster and proxy traffic through that port to the endpoints.

This just works. What's the issue then?

The issue is that it does not provide High Availability because beforehand is required to know the IP addresss of the node where is running and in case of a failure the pod can be be moved to a different node. Here is where ipvs could help. The idea is to define an IP address per service to expose it outside the Kubernetes cluster and use vrrp to announce this "mapping" in the local network. With 2 or more instance of the pod running in the cluster is possible to provide high availabity using a single IP address.

What is the difference between this and service-loadbalancer or nginx-alpha to expose one or more services?

This should be considered a complement, not a replacement for HAProxy or nginx. The goal using keepalived is to provide high availability and to bring certainty about how an exposed service can be reached (beforehand we know the ip address independently of the node where is running). For instance keepalived can be used to expose the service-loadbalancer or nginx ingress controller in the LAN using one IP address.

Requirements

Daemonsets enabled is the only requirement. Check this guide with the required flags in kube-apiserver.

Configuration

To expose one or more services use the flag services-configmap. The format of the data is: external IP -> namespace/serviceName. Optionally is possible to specify forwarding method using : after the service name. The valid options are NAT, DR and PROXY. For instance external IP -> namespace/serviceName:DR. If the method is not specified it will use NAT.

This IP must be routable inside the LAN and must be available. By default the IP address of the pods are used to route the traffic. This means that is one pod dies or a new one is created by a scale event the keepalived configuration file will be updated and reloaded.

Example

First we create a new replication controller and service

$ kubectl create -f examples/echoheaders.yaml
replicationcontroller "echoheaders" created
You have exposed your service on an external port on all nodes in your
cluster.  If you want to expose this service to the external internet, you may
need to set up firewall rules for the service port(s) (tcp:30302) to serve traffic.

See http://releases.k8s.io/HEAD/docs/user-guide/services-firewalls.md for more details.
service "echoheaders" created

Next add the required annotation to expose the service using a local IP

$ echo "apiVersion: v1
kind: ConfigMap
metadata:
  name: vip-configmap
data:
  10.4.0.50: default/echoheaders" | kubectl create -f -

Now the creation of the daemonset

$ kubectl create -f vip-daemonset.yaml
daemonset "kube-keepalived-vip" created
$ kubectl get daemonset
NAME                  CONTAINER(S)          IMAGE(S)                         SELECTOR                        NODE-SELECTOR
kube-keepalived-vip   kube-keepalived-vip   aledbf/kube-keepalived-vip:0.15   name in (kube-keepalived-vip)   type=worker

Note: the daemonset yaml file contains a node selector. This is not required, is just an example to show how is possible to limit the nodes where keepalived can run

To verify if everything is working we should check if a kube-keepalived-vip pod is in each node of the cluster

$ kubectl get nodes
NAME       LABELS                                        STATUS    AGE
10.4.0.3   kubernetes.io/hostname=10.4.0.3,type=worker   Ready     1d
10.4.0.4   kubernetes.io/hostname=10.4.0.4,type=worker   Ready     1d
10.4.0.5   kubernetes.io/hostname=10.4.0.5,type=worker   Ready     1d
$ kubectl get pods
NAME                        READY     STATUS    RESTARTS   AGE
echoheaders-co4g4           1/1       Running   0          5m
kube-keepalived-vip-a90bt   1/1       Running   0          53s
kube-keepalived-vip-g3nku   1/1       Running   0          52s
kube-keepalived-vip-gd18l   1/1       Running   0          54s
$ kubectl logs kube-keepalived-vip-a90bt
I0410 14:24:45.860119       1 keepalived.go:161] cleaning ipvs configuration
I0410 14:24:45.873095       1 main.go:109] starting LVS configuration
I0410 14:24:45.894664       1 main.go:119] starting keepalived to announce VIPs
Starting Healthcheck child process, pid=17
Starting VRRP child process, pid=18
Initializing ipvs 2.6
Registering Kernel netlink reflector
Registering Kernel netlink reflector
Registering Kernel netlink command channel
Registering gratuitous ARP shared channel
Registering Kernel netlink command channel
Using LinkWatch kernel netlink reflector...
Using LinkWatch kernel netlink reflector...
I0410 14:24:56.017590       1 keepalived.go:151] reloading keepalived
Got SIGHUP, reloading checker configuration
Registering Kernel netlink reflector
Initializing ipvs 2.6
Registering Kernel netlink command channel
Registering gratuitous ARP shared channel
Registering Kernel netlink reflector
Opening file '/etc/keepalived/keepalived.conf'.
Registering Kernel netlink command channel
Opening file '/etc/keepalived/keepalived.conf'.
Using LinkWatch kernel netlink reflector...
VRRP_Instance(vips) Entering BACKUP STATE
Using LinkWatch kernel netlink reflector...
Activating healthchecker for service [10.2.68.5]:8080
VRRP_Instance(vips) Transition to MASTER STATE
VRRP_Instance(vips) Entering MASTER STATE
VRRP_Instance(vips) using locally configured advertisement interval (1000 milli-sec)
$ kubectl exec kube-keepalived-vip-a90bt cat /etc/keepalived/keepalived.conf

global_defs {
  vrrp_version 3
  vrrp_iptables KUBE-KEEPALIVED-VIP
}

vrrp_instance vips {
  state BACKUP
  interface eth1
  virtual_router_id 50
  priority 100
  nopreempt
  advert_int 1

  track_interface {
    eth1
  }



  virtual_ipaddress {
    172.17.4.90
  }
}


# Service: default/echoheaders
virtual_server 10.4.0.50 80 {
  delay_loop 5
  lvs_sched wlc
  lvs_method NAT
  persistence_timeout 1800
  protocol TCP


  real_server 10.2.68.5 8080 {
    weight 1
    TCP_CHECK {
      connect_port 8080
      connect_timeout 3
    }
  }

}

$ curl -v 10.4.0.50
* Rebuilt URL to: 10.4.0.50/
*   Trying 10.4.0.50...
* Connected to 10.4.0.50 (10.4.0.50) port 80 (#0)
> GET / HTTP/1.1
> Host: 10.4.0.50
> User-Agent: curl/7.43.0
> Accept: */*
>
* HTTP 1.0, assume close after body
< HTTP/1.0 200 OK
< Server: BaseHTTP/0.6 Python/3.5.0
< Date: Wed, 30 Dec 2015 19:52:39 GMT
<
CLIENT VALUES:
client_address=('10.4.0.148', 52178) (10.4.0.148)
command=GET
path=/
real path=/
query=
request_version=HTTP/1.1

SERVER VALUES:
server_version=BaseHTTP/0.6
sys_version=Python/3.5.0
protocol_version=HTTP/1.0

HEADERS RECEIVED:
Accept=*/*
Host=10.4.0.50
User-Agent=curl/7.43.0
* Closing connection 0

Scaling the replication controller should update and reload keepalived

$ kubectl scale --replicas=5 replicationcontroller echoheaders
replicationcontroller "echoheaders" scaled
$ kubectl exec kube-keepalived-vip-a90bt cat /etc/keepalived/keepalived.conf

global_defs {
  vrrp_version 3
  vrrp_iptables KUBE-KEEPALIVED-VIP
}

vrrp_instance vips {
  state BACKUP
  interface eth1
  virtual_router_id 50
  priority 100
  nopreempt
  advert_int 1

  track_interface {
    eth1
  }



  virtual_ipaddress {
    172.17.4.90
  }
}


# Service: default/echoheaders
virtual_server 10.4.0.50 80 {
  delay_loop 5
  lvs_sched wlc
  lvs_method NAT
  persistence_timeout 1800
  protocol TCP


  real_server 10.2.68.5 8080 {
    weight 1
    TCP_CHECK {
      connect_port 8080
      connect_timeout 3
    }
  }

  real_server 10.2.68.6 8080 {
    weight 1
    TCP_CHECK {
      connect_port 8080
      connect_timeout 3
    }
  }

  real_server 10.2.68.7 8080 {
    weight 1
    TCP_CHECK {
      connect_port 8080
      connect_timeout 3
    }
  }

  real_server 10.2.68.8 8080 {
    weight 1
    TCP_CHECK {
      connect_port 8080
      connect_timeout 3
    }
  }

  real_server 10.2.68.9 8080 {
    weight 1
    TCP_CHECK {
      connect_port 8080
      connect_timeout 3
    }
  }

}

PROXY Protocol mode

The PROXY Protocol allows the transport connection information such as a client's address across multiple layers of NAT or TCP. Usually this is information is lost, containing information about the last hop. There is only one caveat using this protocol: the destination must "understand" the protocol. Without this is not possible to read the traffic. To enable this feature the flag --proxy-protocol-mode=true is required.

Using this flag implies that HAProxy will be responsible of handling the load balancing in TCP mode

HAProxy is used to in conjunction win Keepalived so send proxy packets.

Example:

First create a configmap with the VIP mapping

echo "apiVersion: v1
data:
  10.4.0.50: default/nginx-ingress-lb:PROXY
  10.4.0.51: default/echoheaders
kind: ConfigMap
metadata:
  name: vip-configmap
  namespace: default" | kubectl create -f -

Where default/nginx-ingress-lb is a NGINX Ingress controller with the option use-proxy-protocol:true.

The Ingress controller just have one rule using the echoheaders container.

old-mbp:~ aledbf$ kubectl get ing
NAME             RULE          BACKEND   ADDRESS         AGE
default-server   -                       10.4.0.5        1d

                 /             echoheaders-x:80
kubectl create -f vip-daemonser-proxy.xml

Finally test the content of the header x-forwarded-for to verify it returns the IP address of the client

$ curl -v http://10.4.0.50
curl 10.4.0.50
CLIENT VALUES:
client_address=10.2.0.186
command=GET
real path=/
query=nil
request_version=1.1
request_uri=http://10.4.0.50:8080/

SERVER VALUES:
server_version=nginx: 1.9.7 - lua: 9019

HEADERS RECEIVED:
accept=*/*
connection=close
host=10.4.0.50
user-agent=curl/7.43.0
x-forwarded-for=10.4.0.148
x-forwarded-host=10.4.0.50
x-forwarded-port=80
x-forwarded-proto=http
x-real-ip=10.4.0.148
BODY:
-no body in request-

Helm Chart

chart/kube-keepalived-vip contains a Helm chart. There are two Makefile targets related to it:

  • chart-subst: This target generates Chart.yaml and values.yaml from the templates. After this the chart is ready and the directory could be referenced directly for use with helm install or helm upgrade.
  • chart: This target generates a Helm package located at chart/kube-keepalived-X.Y.Z.tgz. This target requires Helm to be installed.

The chart supports both the normal mode of operation and the mode with PROXY protocol support via HAProxy. It has been tested on Kubernetes 1.8 and 1.9.

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