Virtual Outbound
This policy lets you customize hostnames and ports for communicating with data plane proxies.
Possible use cases are:
1) Preserving hostnames when migrating to service mesh. 2) Providing multiple hostnames for reaching the same service, for example when renaming or for usability. 3) Providing specific routes, for example to reach a specific pod in a service with StatefulSets on Kubernetes, or to add a URL to reach a specific version of a service. 4) Expose multiple inbounds on different ports.
Limitations:
- When duplicate
(hostname, port)combinations are detected, the virtual outbound with the highest priority takes over. For more information, see the documentation on how Kuma chooses the right policy. All duplicate instances are logged.
conf.host and conf.port are processed as go text templates with a key-value pair derived from conf.parameters.
conf.selectors are used to specify which proxies this policy applies to.
For example a proxy with this definition:
type: Dataplane
mesh: default
name: backend-1
networking:
address: 192.168.0.2
inbound:
- port: 9000
servicePort: 6379
tags:
kuma.io/service: backend
version: v1
port: 1800
and a virtual outbound with this definition:
type: VirtualOutbound
mesh: default
name: test
selectors:
- match:
kuma.io/service: "*"
conf:
host: "{{.v}}.{{.service}}.mesh"
port: "{{.port}}"
parameters:
- name: service
tagKey: "kuma.io/service"
- name: port
tagKey: port
- name: v
tagKey: version
produce the hostname: v1.backend.mesh with port: 1800.
Additional requirements:
- Transparent proxy .
- Either data plane proxy DNS, or else the value of
conf.hostmust end with the value ofdns_server.domain(default value.mesh). namemust be alphanumeric. (Used as a go template key).- Each value of
namemust be unique. kuma.io/servicemust be specified even if it’s unused in the template. (Prevents defining hostnames that spans services).
The default value of tagKey is the value of name.
For each virtual outbound, the Kuma control plane processes all data plane proxies that match the selector.
It then applies the templates for conf.host and conf.port and assigns a virtual IP address for each hostname.
Examples
The following examples show how to use virtual outbounds for different use cases.
Same as the default DNS
apiVersion: kuma.io/v1alpha1
kind: VirtualOutbound
mesh: default
metadata:
name: default
spec:
selectors:
- match:
kuma.io/service: "*"
conf:
host: "{{.service}}.mesh"
port: "80"
parameters:
- name: service
tagKey: "kuma.io/service"
One hostname per version
apiVersion: kuma.io/v1alpha1
kind: VirtualOutbound
mesh: default
metadata:
name: versioned
spec:
selectors:
- match:
kuma.io/service: "*"
conf:
host: "{{.service}}.{{.version}}.mesh"
port: "80"
parameters:
- name: service
tagKey: "kuma.io/service"
- name: version
tagKey: "kuma.io/version"
Custom tag to define the hostname and port
apiVersion: kuma.io/v1alpha1
kind: VirtualOutbound
mesh: default
metadata:
name: host-port
spec:
selectors:
- match:
kuma.io/service: "*"
conf:
host: "{{.hostname}}"
port: "{{.port}}"
parameters:
- name: hostname
tagKey: "my.mesh/hostname"
- name: port
tagKey: "my.mesh/port"
One hostname per instance
Enables reaching specific data plane proxies for a service. Useful for running distributed databases such as Kafka or Zookeeper.
apiVersion: kuma.io/v1alpha1
kind: VirtualOutbound
mesh: default
metadata:
name: instance
spec:
selectors:
- match:
kuma.io/service: "*"
statefulset.kubernetes.io/pod-name: "*"
conf:
host: "{{.svc}}.{{.inst}}.mesh"
port: "8080"
parameters:
- name: "svc"
tagKey: "kuma.io/service"
- name: "inst"
tagKey: "statefulset.kubernetes.io/pod-name"