Egress Gateways with TLS Origination
The TLS Origination for Egress Traffic example shows how to configure Istio to perform TLS origination for traffic to an external service. The Configure an Egress Gateway example shows how to configure Istio to direct egress traffic through a dedicated egress gateway service. This example combines the previous two by describing how to configure an egress gateway to perform TLS origination for traffic to external services.
Before you begin
Setup Istio by following the instructions in the Installation guide.
Start the sleep sample which will be used as a test source for external calls.
If you have enabled automatic sidecar injection, do
$ kubectl apply -f @samples/sleep/sleep.yaml@
otherwise, you have to manually inject the sidecar before deploying the
sleep
application:$ kubectl apply -f <(istioctl kube-inject -f @samples/sleep/sleep.yaml@)
Note that any pod that you can
exec
andcurl
from would do.Create a shell variable to hold the name of the source pod for sending requests to external services. If you used the sleep sample, run:
$ export SOURCE_POD=$(kubectl get pod -l app=sleep -o jsonpath={.items..metadata.name})
For macOS users, verify that you are using
openssl
version 1.1 or later:$ openssl version -a | grep OpenSSL OpenSSL 1.1.1g 21 Apr 2020
If the previous command outputs a version
1.1
or later, as shown, youropenssl
command should work correctly with the instructions in this task. Otherwise, upgrade youropenssl
or try a different implementation ofopenssl
, for example on a Linux machine.Enable Envoy’s access logging if not already enabled. For example, using
istioctl
:$ istioctl install <flags-you-used-to-install-Istio> --set meshConfig.accessLogFile=/dev/stdout
If you are NOT using the
Gateway API
instructions, make sure to deploy the Istio egress gateway.
Perform TLS origination with an egress gateway
This section describes how to perform the same TLS origination as in the TLS Origination for Egress Traffic example, only this time using an egress gateway. Note that in this case the TLS origination will be done by the egress gateway, as opposed to by the sidecar in the previous example.
Define a
ServiceEntry
foredition.cnn.com
:$ kubectl apply -f - <<EOF apiVersion: networking.istio.io/v1 kind: ServiceEntry metadata: name: cnn spec: hosts: - edition.cnn.com ports: - number: 80 name: http protocol: HTTP - number: 443 name: https protocol: HTTPS resolution: DNS EOF
Verify that your
ServiceEntry
was applied correctly by sending a request to http://edition.cnn.com/politics.$ kubectl exec "${SOURCE_POD}" -c sleep -- curl -sSL -o /dev/null -D - http://edition.cnn.com/politics HTTP/1.1 301 Moved Permanently ... location: https://edition.cnn.com/politics ...
Your
ServiceEntry
was configured correctly if you see 301 Moved Permanently in the output.Create an egress
Gateway
for edition.cnn.com, port 80, and a destination rule for sidecar requests that will be directed to the egress gateway.
$ kubectl apply -f - <<EOF
apiVersion: networking.istio.io/v1
kind: Gateway
metadata:
name: istio-egressgateway
spec:
selector:
istio: egressgateway
servers:
- port:
number: 80
name: https-port-for-tls-origination
protocol: HTTPS
hosts:
- edition.cnn.com
tls:
mode: ISTIO_MUTUAL
---
apiVersion: networking.istio.io/v1
kind: DestinationRule
metadata:
name: egressgateway-for-cnn
spec:
host: istio-egressgateway.istio-system.svc.cluster.local
subsets:
- name: cnn
trafficPolicy:
loadBalancer:
simple: ROUND_ROBIN
portLevelSettings:
- port:
number: 80
tls:
mode: ISTIO_MUTUAL
sni: edition.cnn.com
EOF
$ kubectl apply -f - <<EOF
apiVersion: gateway.networking.k8s.io/v1
kind: Gateway
metadata:
name: cnn-egress-gateway
annotations:
networking.istio.io/service-type: ClusterIP
spec:
gatewayClassName: istio
listeners:
- name: https-listener-for-tls-origination
hostname: edition.cnn.com
port: 80
protocol: HTTPS
tls:
mode: Terminate
options:
gateway.istio.io/tls-terminate-mode: ISTIO_MUTUAL
allowedRoutes:
namespaces:
from: Same
---
apiVersion: networking.istio.io/v1
kind: DestinationRule
metadata:
name: egressgateway-for-cnn
spec:
host: cnn-egress-gateway-istio.default.svc.cluster.local
trafficPolicy:
loadBalancer:
simple: ROUND_ROBIN
portLevelSettings:
- port:
number: 80
tls:
mode: ISTIO_MUTUAL
sni: edition.cnn.com
EOF
- Configure route rules to direct traffic through the egress gateway:
$ kubectl apply -f - <<EOF
apiVersion: networking.istio.io/v1
kind: VirtualService
metadata:
name: direct-cnn-through-egress-gateway
spec:
hosts:
- edition.cnn.com
gateways:
- istio-egressgateway
- mesh
http:
- match:
- gateways:
- mesh
port: 80
route:
- destination:
host: istio-egressgateway.istio-system.svc.cluster.local
subset: cnn
port:
number: 80
weight: 100
- match:
- gateways:
- istio-egressgateway
port: 80
route:
- destination:
host: edition.cnn.com
port:
number: 443
weight: 100
EOF
$ kubectl apply -f - <<EOF
apiVersion: gateway.networking.k8s.io/v1
kind: HTTPRoute
metadata:
name: direct-cnn-to-egress-gateway
spec:
parentRefs:
- kind: ServiceEntry
group: networking.istio.io
name: cnn
rules:
- backendRefs:
- name: cnn-egress-gateway-istio
port: 80
---
apiVersion: gateway.networking.k8s.io/v1
kind: HTTPRoute
metadata:
name: forward-cnn-from-egress-gateway
spec:
parentRefs:
- name: cnn-egress-gateway
hostnames:
- edition.cnn.com
rules:
- backendRefs:
- kind: Hostname
group: networking.istio.io
name: edition.cnn.com
port: 443
EOF
Define a
DestinationRule
to perform TLS origination for requests toedition.cnn.com
:$ kubectl apply -f - <<EOF apiVersion: networking.istio.io/v1 kind: DestinationRule metadata: name: originate-tls-for-edition-cnn-com spec: host: edition.cnn.com trafficPolicy: loadBalancer: simple: ROUND_ROBIN portLevelSettings: - port: number: 443 tls: mode: SIMPLE # initiates HTTPS for connections to edition.cnn.com EOF
Send an HTTP request to http://edition.cnn.com/politics.
$ kubectl exec "${SOURCE_POD}" -c sleep -- curl -sSL -o /dev/null -D - http://edition.cnn.com/politics HTTP/1.1 200 OK ...
The output should be the same as in the TLS Origination for Egress Traffic example, with TLS origination: without the 301 Moved Permanently message.
Check the log of the egress gateway’s proxy.
If Istio is deployed in the istio-system
namespace, the command to print the log is:
$ kubectl logs -l istio=egressgateway -c istio-proxy -n istio-system | tail
You should see a line similar to the following:
[2020-06-30T16:17:56.763Z] "GET /politics HTTP/2" 200 - "-" "-" 0 1295938 529 89 "10.244.0.171" "curl/7.64.0" "cf76518d-3209-9ab7-a1d0-e6002728ef5b" "edition.cnn.com" "151.101.129.67:443" outbound|443||edition.cnn.com 10.244.0.170:54280 10.244.0.170:8080 10.244.0.171:35628 - -
Access the log corresponding to the egress gateway using the Istio-generated pod label:
$ kubectl logs -l gateway.networking.k8s.io/gateway-name=cnn-egress-gateway -c istio-proxy | tail
You should see a line similar to the following:
[2024-03-14T18:37:01.451Z] "GET /politics HTTP/1.1" 200 - via_upstream - "-" 0 2484998 59 37 "172.30.239.26" "curl/7.87.0-DEV" "b80c8732-8b10-4916-9a73-c3e1c848ed1e" "edition.cnn.com" "151.101.131.5:443" outbound|443||edition.cnn.com 172.30.239.33:51270 172.30.239.33:80 172.30.239.26:35192 edition.cnn.com default.forward-cnn-from-egress-gateway.0
Cleanup the TLS origination example
Remove the Istio configuration items you created:
$ kubectl delete gw istio-egressgateway
$ kubectl delete serviceentry cnn
$ kubectl delete virtualservice direct-cnn-through-egress-gateway
$ kubectl delete destinationrule originate-tls-for-edition-cnn-com
$ kubectl delete destinationrule egressgateway-for-cnn
$ kubectl delete serviceentry cnn
$ kubectl delete gtw cnn-egress-gateway
$ kubectl delete httproute direct-cnn-to-egress-gateway
$ kubectl delete httproute forward-cnn-from-egress-gateway
$ kubectl delete destinationrule egressgateway-for-cnn
$ kubectl delete destinationrule originate-tls-for-edition-cnn-com
Perform mutual TLS origination with an egress gateway
Similar to the previous section, this section describes how to configure an egress gateway to perform TLS origination for an external service, only this time using a service that requires mutual TLS.
This example is considerably more involved because you need to first:
- generate client and server certificates
- deploy an external service that supports the mutual TLS protocol
- redeploy the egress gateway with the needed mutual TLS certs
Only then can you configure the external traffic to go through the egress gateway which will perform TLS origination.
Generate client and server certificates and keys
For this task you can use your favorite tool to generate certificates and keys. The commands below use openssl
Create a root certificate and private key to sign the certificate for your services:
$ openssl req -x509 -sha256 -nodes -days 365 -newkey rsa:2048 -subj '/O=example Inc./CN=example.com' -keyout example.com.key -out example.com.crt
Create a certificate and a private key for
my-nginx.mesh-external.svc.cluster.local
:$ openssl req -out my-nginx.mesh-external.svc.cluster.local.csr -newkey rsa:2048 -nodes -keyout my-nginx.mesh-external.svc.cluster.local.key -subj "/CN=my-nginx.mesh-external.svc.cluster.local/O=some organization" $ openssl x509 -req -sha256 -days 365 -CA example.com.crt -CAkey example.com.key -set_serial 0 -in my-nginx.mesh-external.svc.cluster.local.csr -out my-nginx.mesh-external.svc.cluster.local.crt
Optionally, you can add
SubjectAltNames
to the certificate if you want to enable SAN validation for the destination. For example:$ cat > san.conf <<EOF [req] distinguished_name = req_distinguished_name req_extensions = v3_req x509_extensions = v3_req prompt = no [req_distinguished_name] countryName = US [v3_req] keyUsage = critical, digitalSignature, keyEncipherment extendedKeyUsage = serverAuth, clientAuth basicConstraints = critical, CA:FALSE subjectAltName = critical, @alt_names [alt_names] DNS = my-nginx.mesh-external.svc.cluster.local EOF $ $ openssl req -out my-nginx.mesh-external.svc.cluster.local.csr -newkey rsa:4096 -nodes -keyout my-nginx.mesh-external.svc.cluster.local.key -subj "/CN=my-nginx.mesh-external.svc.cluster.local/O=some organization" -config san.conf $ openssl x509 -req -sha256 -days 365 -CA example.com.crt -CAkey example.com.key -set_serial 0 -in my-nginx.mesh-external.svc.cluster.local.csr -out my-nginx.mesh-external.svc.cluster.local.crt -extfile san.conf -extensions v3_req
Generate client certificate and private key:
$ openssl req -out client.example.com.csr -newkey rsa:2048 -nodes -keyout client.example.com.key -subj "/CN=client.example.com/O=client organization" $ openssl x509 -req -sha256 -days 365 -CA example.com.crt -CAkey example.com.key -set_serial 1 -in client.example.com.csr -out client.example.com.crt
Deploy a mutual TLS server
To simulate an actual external service that supports the mutual TLS protocol, deploy an NGINX server in your Kubernetes cluster, but running outside of the Istio service mesh, i.e., in a namespace without Istio sidecar proxy injection enabled.
Create a namespace to represent services outside the Istio mesh, namely
mesh-external
. Note that the sidecar proxy will not be automatically injected into the pods in this namespace since the automatic sidecar injection was not enabled on it.$ kubectl create namespace mesh-external
Create Kubernetes Secrets to hold the server’s and CA certificates.
$ kubectl create -n mesh-external secret tls nginx-server-certs --key my-nginx.mesh-external.svc.cluster.local.key --cert my-nginx.mesh-external.svc.cluster.local.crt $ kubectl create -n mesh-external secret generic nginx-ca-certs --from-file=example.com.crt
Create a configuration file for the NGINX server:
$ cat <<\EOF > ./nginx.conf events { } http { log_format main '$remote_addr - $remote_user [$time_local] $status ' '"$request" $body_bytes_sent "$http_referer" ' '"$http_user_agent" "$http_x_forwarded_for"'; access_log /var/log/nginx/access.log main; error_log /var/log/nginx/error.log; server { listen 443 ssl; root /usr/share/nginx/html; index index.html; server_name my-nginx.mesh-external.svc.cluster.local; ssl_certificate /etc/nginx-server-certs/tls.crt; ssl_certificate_key /etc/nginx-server-certs/tls.key; ssl_client_certificate /etc/nginx-ca-certs/example.com.crt; ssl_verify_client on; } } EOF
Create a Kubernetes ConfigMap to hold the configuration of the NGINX server:
$ kubectl create configmap nginx-configmap -n mesh-external --from-file=nginx.conf=./nginx.conf
Deploy the NGINX server:
$ kubectl apply -f - <<EOF apiVersion: v1 kind: Service metadata: name: my-nginx namespace: mesh-external labels: run: my-nginx spec: ports: - port: 443 protocol: TCP selector: run: my-nginx --- apiVersion: apps/v1 kind: Deployment metadata: name: my-nginx namespace: mesh-external spec: selector: matchLabels: run: my-nginx replicas: 1 template: metadata: labels: run: my-nginx spec: containers: - name: my-nginx image: nginx ports: - containerPort: 443 volumeMounts: - name: nginx-config mountPath: /etc/nginx readOnly: true - name: nginx-server-certs mountPath: /etc/nginx-server-certs readOnly: true - name: nginx-ca-certs mountPath: /etc/nginx-ca-certs readOnly: true volumes: - name: nginx-config configMap: name: nginx-configmap - name: nginx-server-certs secret: secretName: nginx-server-certs - name: nginx-ca-certs secret: secretName: nginx-ca-certs EOF
Configure mutual TLS origination for egress traffic
- Create a Kubernetes Secret in the same namespace as the egress gateway is deployed in, to hold the client’s certificates:
$ kubectl create secret -n istio-system generic client-credential --from-file=tls.key=client.example.com.key \
--from-file=tls.crt=client.example.com.crt --from-file=ca.crt=example.com.crt
To support integration with various tools, Istio supports a few different Secret formats.
In this example, a single generic Secret with keys tls.key
, tls.crt
, and ca.crt
is used.
$ kubectl create secret -n default generic client-credential --from-file=tls.key=client.example.com.key \
--from-file=tls.crt=client.example.com.crt --from-file=ca.crt=example.com.crt
To support integration with various tools, Istio supports a few different Secret formats.
In this example, a single generic Secret with keys tls.key
, tls.crt
, and ca.crt
is used.
- Create an egress
Gateway
formy-nginx.mesh-external.svc.cluster.local
, port 443, and a destination rule for sidecar requests that will be directed to the egress gateway:
$ kubectl apply -f - <<EOF
apiVersion: networking.istio.io/v1
kind: Gateway
metadata:
name: istio-egressgateway
spec:
selector:
istio: egressgateway
servers:
- port:
number: 443
name: https
protocol: HTTPS
hosts:
- my-nginx.mesh-external.svc.cluster.local
tls:
mode: ISTIO_MUTUAL
---
apiVersion: networking.istio.io/v1
kind: DestinationRule
metadata:
name: egressgateway-for-nginx
spec:
host: istio-egressgateway.istio-system.svc.cluster.local
subsets:
- name: nginx
trafficPolicy:
loadBalancer:
simple: ROUND_ROBIN
portLevelSettings:
- port:
number: 443
tls:
mode: ISTIO_MUTUAL
sni: my-nginx.mesh-external.svc.cluster.local
EOF
$ kubectl apply -f - <<EOF
apiVersion: gateway.networking.k8s.io/v1
kind: Gateway
metadata:
name: nginx-egressgateway
annotations:
networking.istio.io/service-type: ClusterIP
spec:
gatewayClassName: istio
listeners:
- name: https
hostname: my-nginx.mesh-external.svc.cluster.local
port: 443
protocol: HTTPS
tls:
mode: Terminate
options:
gateway.istio.io/tls-terminate-mode: ISTIO_MUTUAL
allowedRoutes:
namespaces:
from: Same
---
apiVersion: rbac.authorization.k8s.io/v1
kind: Role
metadata:
name: nginx-egressgateway-istio-sds
rules:
- apiGroups:
- ""
resources:
- secrets
verbs:
- get
- watch
- list
---
apiVersion: rbac.authorization.k8s.io/v1
kind: RoleBinding
metadata:
name: nginx-egressgateway-istio-sds
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: Role
name: nginx-egressgateway-istio-sds
subjects:
- kind: ServiceAccount
name: nginx-egressgateway-istio
---
apiVersion: networking.istio.io/v1
kind: DestinationRule
metadata:
name: egressgateway-for-nginx
spec:
host: nginx-egressgateway-istio.default.svc.cluster.local
trafficPolicy:
loadBalancer:
simple: ROUND_ROBIN
portLevelSettings:
- port:
number: 443
tls:
mode: ISTIO_MUTUAL
sni: my-nginx.mesh-external.svc.cluster.local
EOF
- Configure route rules to direct traffic through the egress gateway:
$ kubectl apply -f - <<EOF
apiVersion: networking.istio.io/v1
kind: VirtualService
metadata:
name: direct-nginx-through-egress-gateway
spec:
hosts:
- my-nginx.mesh-external.svc.cluster.local
gateways:
- istio-egressgateway
- mesh
http:
- match:
- gateways:
- mesh
port: 80
route:
- destination:
host: istio-egressgateway.istio-system.svc.cluster.local
subset: nginx
port:
number: 443
weight: 100
- match:
- gateways:
- istio-egressgateway
port: 443
route:
- destination:
host: my-nginx.mesh-external.svc.cluster.local
port:
number: 443
weight: 100
EOF
$ kubectl apply -f - <<EOF
apiVersion: networking.istio.io/v1
kind: VirtualService
metadata:
name: direct-nginx-to-egress-gateway
spec:
hosts:
- my-nginx.mesh-external.svc.cluster.local
gateways:
- mesh
http:
- match:
- port: 80
route:
- destination:
host: nginx-egressgateway-istio.default.svc.cluster.local
port:
number: 443
---
apiVersion: gateway.networking.k8s.io/v1
kind: HTTPRoute
metadata:
name: forward-nginx-from-egress-gateway
spec:
parentRefs:
- name: nginx-egressgateway
hostnames:
- my-nginx.mesh-external.svc.cluster.local
rules:
- backendRefs:
- name: my-nginx
namespace: mesh-external
port: 443
---
apiVersion: gateway.networking.k8s.io/v1beta1
kind: ReferenceGrant
metadata:
name: my-nginx-reference-grant
namespace: mesh-external
spec:
from:
- group: gateway.networking.k8s.io
kind: HTTPRoute
namespace: default
to:
- group: ""
kind: Service
name: my-nginx
EOF
TODO: figure out why using an HTTPRoute
, instead of the above VirtualService
, doesn’t work. It completely ignores the HTTPRoute
and tries to pass through to the destination service, which times out. The only difference from the above VirtualService
is that the generated VirtualService
includes annotation: internal.istio.io/route-semantics": "gateway"
.
- Add a
DestinationRule
to perform mutual TLS origination:
$ kubectl apply -n istio-system -f - <<EOF
apiVersion: networking.istio.io/v1
kind: DestinationRule
metadata:
name: originate-mtls-for-nginx
spec:
host: my-nginx.mesh-external.svc.cluster.local
trafficPolicy:
loadBalancer:
simple: ROUND_ROBIN
portLevelSettings:
- port:
number: 443
tls:
mode: MUTUAL
credentialName: client-credential # this must match the secret created earlier to hold client certs
sni: my-nginx.mesh-external.svc.cluster.local
# subjectAltNames: # can be enabled if the certificate was generated with SAN as specified in previous section
# - my-nginx.mesh-external.svc.cluster.local
EOF
$ kubectl apply -f - <<EOF
apiVersion: networking.istio.io/v1
kind: DestinationRule
metadata:
name: originate-mtls-for-nginx
spec:
host: my-nginx.mesh-external.svc.cluster.local
trafficPolicy:
loadBalancer:
simple: ROUND_ROBIN
portLevelSettings:
- port:
number: 443
tls:
mode: MUTUAL
credentialName: client-credential # this must match the secret created earlier to hold client certs
sni: my-nginx.mesh-external.svc.cluster.local
# subjectAltNames: # can be enabled if the certificate was generated with SAN as specified in previous section
# - my-nginx.mesh-external.svc.cluster.local
EOF
- Verify that the credential is supplied to the egress gateway and active:
$ istioctl -n istio-system proxy-config secret deploy/istio-egressgateway | grep client-credential
kubernetes://client-credential Cert Chain ACTIVE true 1 2024-06-04T12:46:28Z 2023-06-05T12:46:28Z
kubernetes://client-credential-cacert Cert Chain ACTIVE true 16491643791048004260 2024-06-04T12:46:28Z 2023-06-05T12:46:28Z
$ istioctl proxy-config secret deploy/nginx-egressgateway-istio | grep client-credential
kubernetes://client-credential Cert Chain ACTIVE true 1 2024-06-04T12:46:28Z 2023-06-05T12:46:28Z
kubernetes://client-credential-cacert Cert Chain ACTIVE true 16491643791048004260 2024-06-04T12:46:28Z 2023-06-05T12:46:28Z
Send an HTTP request to
http://my-nginx.mesh-external.svc.cluster.local
:$ kubectl exec "$(kubectl get pod -l app=sleep -o jsonpath={.items..metadata.name})" -c sleep -- curl -sS http://my-nginx.mesh-external.svc.cluster.local <!DOCTYPE html> <html> <head> <title>Welcome to nginx!</title> ...
Check the log of the egress gateway’s proxy:
If Istio is deployed in the istio-system
namespace, the command to print the log is:
$ kubectl logs -l istio=egressgateway -n istio-system | grep 'my-nginx.mesh-external.svc.cluster.local' | grep HTTP
You should see a line similar to the following:
[2018-08-19T18:20:40.096Z] "GET / HTTP/1.1" 200 - 0 612 7 5 "172.30.146.114" "curl/7.35.0" "b942b587-fac2-9756-8ec6-303561356204" "my-nginx.mesh-external.svc.cluster.local" "172.21.72.197:443"
Access the log corresponding to the egress gateway using the Istio-generated pod label:
$ kubectl logs -l gateway.networking.k8s.io/gateway-name=nginx-egressgateway | grep 'my-nginx.mesh-external.svc.cluster.local' | grep HTTP
You should see a line similar to the following:
[2024-04-08T20:08:18.451Z] "GET / HTTP/1.1" 200 - via_upstream - "-" 0 615 5 5 "172.30.239.41" "curl/7.87.0-DEV" "86e54df0-6dc3-46b3-a8b8-139474c32a4d" "my-nginx.mesh-external.svc.cluster.local" "172.30.239.57:443" outbound|443||my-nginx.mesh-external.svc.cluster.local 172.30.239.53:48530 172.30.239.53:443 172.30.239.41:53694 my-nginx.mesh-external.svc.cluster.local default.forward-nginx-from-egress-gateway.0
Cleanup the mutual TLS origination example
Remove the NGINX mutual TLS server resources:
$ kubectl delete secret nginx-server-certs nginx-ca-certs -n mesh-external $ kubectl delete configmap nginx-configmap -n mesh-external $ kubectl delete service my-nginx -n mesh-external $ kubectl delete deployment my-nginx -n mesh-external $ kubectl delete namespace mesh-external
Remove the gateway configuration resources:
$ kubectl delete secret client-credential -n istio-system
$ kubectl delete gw istio-egressgateway
$ kubectl delete virtualservice direct-nginx-through-egress-gateway
$ kubectl delete destinationrule -n istio-system originate-mtls-for-nginx
$ kubectl delete destinationrule egressgateway-for-nginx
$ kubectl delete secret client-credential
$ kubectl delete gtw nginx-egressgateway
$ kubectl delete role nginx-egressgateway-istio-sds
$ kubectl delete rolebinding nginx-egressgateway-istio-sds
$ kubectl delete virtualservice direct-nginx-to-egress-gateway
$ kubectl delete httproute forward-nginx-from-egress-gateway
$ kubectl delete destinationrule originate-mtls-for-nginx
$ kubectl delete destinationrule egressgateway-for-nginx
$ kubectl delete referencegrant my-nginx-reference-grant -n mesh-external
Delete the certificates and private keys:
$ rm example.com.crt example.com.key my-nginx.mesh-external.svc.cluster.local.crt my-nginx.mesh-external.svc.cluster.local.key my-nginx.mesh-external.svc.cluster.local.csr client.example.com.crt client.example.com.csr client.example.com.key
Delete the generated configuration files used in this example:
$ rm ./nginx.conf
Cleanup
Delete the sleep
service and deployment:
$ kubectl delete -f @samples/sleep/sleep.yaml@