$ oc create configmap --from-file=<templates-directory> smcp-templates -n openshift-operators
You are viewing documentation for a Red Hat OpenShift service Mesh release that is no longer supported. service Mesh version 1.0 and 1.1 control planes are no longer supported. For information about upgrading your service mesh control plane, see Upgrading service Mesh. For information about the support status of a particular Red Hat OpenShift service Mesh release, see the Product lifecycle page. |
When you deploy an application into the service Mesh, there are several differences between the behavior of applications in the upstream community version of Istio and the behavior of applications within a Red Hat OpenShift service Mesh installation.
You can create reusable configurations with serviceMeshControlPlane
templates. Individual users can extend the templates they create with their own configurations. Templates can also inherit configuration information from other templates. For example, you can create an accounting control plane for the accounting team and a marketing control plane for the marketing team. If you create a development template and a production template, members of the marketing team and the accounting team can extend the development and production templates with team specific customization.
When you configure control plane templates, which follow the same syntax as the serviceMeshControlPlane
, users inherit settings in a hierarchical fashion. The Operator is delivered with a default
template with default settings for Red Hat OpenShift service Mesh. To add custom templates you must create a ConfigMap named smcp-templates
in the openshift-operators
project and mount the ConfigMap in the Operator container at /usr/local/share/istio-operator/templates
.
Follow this procedure to create the ConfigMap.
An installed, verified service Mesh Operator.
An account with the cluster-admin
role.
Location of the Operator deployment.
Access to the OpenShift Container Platform Command-line Interface (CLI) also known as oc
.
Log in to the OpenShift Container Platform CLI as a cluster administrator.
From the CLI, run this command to create the ConfigMap named smcp-templates
in the openshift-operators
project and replace <templates-directory>
with the location of the serviceMeshControlPlane
files on your local disk:
$ oc create configmap --from-file=<templates-directory> smcp-templates -n openshift-operators
Locate the Operator ClusterserviceVersion name.
$ oc get clusterserviceversion -n openshift-operators | grep 'service Mesh'
maistra.v1.0.0 Red Hat OpenShift service Mesh 1.0.0 Succeeded
Edit the Operator cluster service version to instruct the Operator to use the smcp-templates
ConfigMap.
$ oc edit clusterserviceversion -n openshift-operators maistra.v1.0.0
Add a volume mount and volume to the Operator deployment.
deployments:
- name: istio-operator
spec:
template:
spec:
containers:
volumeMounts:
- name: discovery-cache
mountPath: /home/istio-operator/.kube/cache/discovery
- name: smcp-templates
mountPath: /usr/local/share/istio-operator/templates/
volumes:
- name: discovery-cache
emptyDir:
medium: Memory
- name: smcp-templates
configMap:
name: smcp-templates
...
Save your changes and exit the editor.
You can now use the template
parameter in the serviceMeshControlPlane
to specify a template.
apiVersion: maistra.io/v1
kind: serviceMeshControlPlane
metadata:
name: minimal-install
spec:
template: default
When deploying an application, you must opt-in to injection by configuring the annotation sidecar.istio.io/inject
in spec.template.metadata.annotations
to true
in the deployment
object. Opting in ensures that the sidecar injection does not interfere with other OpenShift Container Platform features such as builder pods used by numerous frameworks within the OpenShift Container Platform ecosystem.
Identify the namespaces that are part of your service mesh and the deployments that need automatic sidecar injection.
To find your deployments use the oc get
command.
$ oc get deployment -n <namespace>
For example, to view the deployment file for the 'ratings-v1' microservice in the bookinfo
namespace, use the following command to see the resource in YAML format.
oc get deployment -n bookinfo ratings-v1 -o yaml
Open the application’s deployment configuration YAML file in an editor.
Add spec.template.metadata.annotations.sidecar.istio/inject
to your Deployment YAML and set sidecar.istio.io/inject
to true
as shown in the following example.
apiVersion: apps/v1
kind: Deployment
metadata:
name: ratings-v1
namespace: bookinfo
labels:
app: ratings
version: v1
spec:
template:
metadata:
annotations:
sidecar.istio.io/inject: 'true'
Save the Deployment configuration file.
Add the file back to the project that contains your app.
$ oc apply -n <namespace> -f deployment.yaml
In this example, bookinfo
is the name of the project that contains the ratings-v1
app and deployment-ratings-v1.yaml
is the file you edited.
$ oc apply -n bookinfo -f deployment-ratings-v1.yaml
To verify that the resource uploaded successfully, run the following command.
$ oc get deployment -n <namespace> <deploymentName> -o yaml
For example,
$ oc get deployment -n bookinfo ratings-v1 -o yaml
Configuration for the Envoy sidecar proxies is managed by the serviceMeshControlPlane
.
You can set environment variables for the sidecar proxy for applications by adding pod annotations to the deployment in the injection-template.yaml
file. The environment variables are injected to the sidecar.
apiVersion: apps/v1
kind: Deployment
metadata:
name: resource
spec:
replicas: 7
selector:
matchLabels:
app: resource
template:
metadata:
annotations:
sidecar.maistra.io/proxyEnv: "{ \"maistra_test_env\": \"env_value\", \"maistra_test_env_2\": \"env_value_2\" }"
You should never include |
In previous versions of Red Hat OpenShift service Mesh, Mixer’s policy enforcement was enabled by default. Mixer policy enforcement is now disabled by default. You must enable it before running policy tasks.
Access to the OpenShift Container Platform Command-line Interface (CLI) also known as oc
.
The examples use |
Log in to the OpenShift Container Platform CLI.
Run this command to check the current Mixer policy enforcement status:
$ oc get cm -n <istio-system> istio -o jsonpath='{.data.mesh}' | grep disablePolicyChecks
If disablePolicyChecks: true
, edit the service Mesh ConfigMap:
$ oc edit cm -n <istio-system> istio
Locate disablePolicyChecks: true
within the ConfigMap and change the value to false
.
Save the configuration and exit the editor.
Re-check the Mixer policy enforcement status to ensure it is set to false
.
service Mesh creates network policies in the service Mesh control plane and member namespaces to allow traffic between them. Before you deploy, consider the following conditions to ensure the services in your service mesh that were previously exposed through an OpenShift Container Platform route.
Traffic into the service mesh must always go through the ingress-gateway for Istio to work properly.
Deploy services external to the service mesh in separate namespaces that are not in any service mesh.
Non-mesh services that need to be deployed within a service mesh enlisted namespace should label their deployments maistra.io/expose-route: "true"
, which ensures OpenShift Container Platform routes to these services still work.
The Bookinfo example application allows you to test your Red Hat OpenShift service Mesh 2.2.3 installation on OpenShift Container Platform.
The Bookinfo application displays information about a book, similar to a single catalog entry of an online book store. The application displays a page that describes the book, book details (ISBN, number of pages, and other information), and book reviews.
The Bookinfo application consists of these microservices:
The productpage
microservice calls the details
and reviews
microservices to populate the page.
The details
microservice contains book information.
The reviews
microservice contains book reviews. It also calls the ratings
microservice.
The ratings
microservice contains book ranking information that accompanies a book review.
There are three versions of the reviews microservice:
Version v1 does not call the ratings
service.
Version v2 calls the ratings
service and displays each rating as one to five black stars.
Version v3 calls the ratings
service and displays each rating as one to five red stars.
This tutorial walks you through how to create a sample application by creating a project, deploying the Bookinfo application to that project, and viewing the running application in service Mesh.
OpenShift Container Platform 4.1 or higher installed.
Red Hat OpenShift service Mesh 2.2.3 installed.
Access to the OpenShift CLI (oc
).
An account with the cluster-admin
role.
The Bookinfo sample application cannot be installed on IBM Z and IBM Power Systems. |
The commands in this section assume the service Mesh control plane project is |
Log in to the OpenShift Container Platform web console as a user with cluster-admin rights. If you use Red Hat OpenShift Dedicated, you must have an account with the dedicated-admin
role.
Click Home → Projects.
Click Create Project.
Enter bookinfo
as the Project Name, enter a Display Name, and enter a Description, then click Create.
Alternatively, you can run this command from the CLI to create the bookinfo
project.
$ oc new-project bookinfo
Click Operators → Installed Operators.
Click the Project menu and use the service Mesh control plane namespace. In this example, use istio-system
.
Click the Red Hat OpenShift service Mesh Operator.
Click the Istio service Mesh Member Roll tab.
If you have already created a Istio service Mesh Member Roll, click the name, then click the YAML tab to open the YAML editor.
If you have not created a serviceMeshMemberRoll
, click Create serviceMeshMemberRoll.
Click Members, then enter the name of your project in the Value field.
Click Create to save the updated service Mesh Member Roll.
Or, save the following example to a YAML file.
apiVersion: maistra.io/v1
kind: serviceMeshMemberRoll
metadata:
name: default
spec:
members:
- bookinfo
Run the following command to upload that file and create the serviceMeshMemberRoll
resource in the istio-system
namespace. In this example, istio-system
is the name of the service Mesh control plane project.
$ oc create -n istio-system -f servicemeshmemberroll-default.yaml
Run the following command to verify the serviceMeshMemberRoll
was created successfully.
$ oc get smmr -n istio-system -o wide
The installation has finished successfully when the STATUS
column is Configured
.
NAME READY STATUS AGE MEMBERS
default 1/1 Configured 70s ["bookinfo"]
From the CLI, deploy the Bookinfo application in the `bookinfo` project by applying the bookinfo.yaml
file:
$ oc apply -n bookinfo -f https://raw.githubusercontent.com/Maistra/istio/maistra-2.2/samples/bookinfo/platform/kube/bookinfo.yaml
You should see output similar to the following:
service/details created
serviceaccount/bookinfo-details created
deployment.apps/details-v1 created
service/ratings created
serviceaccount/bookinfo-ratings created
deployment.apps/ratings-v1 created
service/reviews created
serviceaccount/bookinfo-reviews created
deployment.apps/reviews-v1 created
deployment.apps/reviews-v2 created
deployment.apps/reviews-v3 created
service/productpage created
serviceaccount/bookinfo-productpage created
deployment.apps/productpage-v1 created
Create the ingress gateway by applying the bookinfo-gateway.yaml
file:
$ oc apply -n bookinfo -f https://raw.githubusercontent.com/Maistra/istio/maistra-2.2/samples/bookinfo/networking/bookinfo-gateway.yaml
You should see output similar to the following:
gateway.networking.istio.io/bookinfo-gateway created
virtualservice.networking.istio.io/bookinfo created
Set the value for the GATEWAY_URL
parameter:
$ export GATEWAY_URL=$(oc -n istio-system get route istio-ingressgateway -o jsonpath='{.spec.host}')
Before you can use the Bookinfo application, you must first add default destination rules. There are two preconfigured YAML files, depending on whether or not you enabled mutual transport layer security (TLS) authentication.
To add destination rules, run one of the following commands:
If you did not enable mutual TLS:
$ oc apply -n bookinfo -f https://raw.githubusercontent.com/Maistra/istio/maistra-2.2/samples/bookinfo/networking/destination-rule-all.yaml
If you enabled mutual TLS:
$ oc apply -n bookinfo -f https://raw.githubusercontent.com/Maistra/istio/maistra-2.2/samples/bookinfo/networking/destination-rule-all-mtls.yaml
You should see output similar to the following:
destinationrule.networking.istio.io/productpage created
destinationrule.networking.istio.io/reviews created
destinationrule.networking.istio.io/ratings created
destinationrule.networking.istio.io/details created
To confirm that the sample Bookinfo application was successfully deployed, perform the following steps.
Red Hat OpenShift service Mesh installed.
Complete the steps for installing the Bookinfo sample app.
Log in to the OpenShift Container Platform CLI.
Verify that all pods are ready with this command:
$ oc get pods -n bookinfo
All pods should have a status of Running
. You should see output similar to the following:
NAME READY STATUS RESTARTS AGE
details-v1-55b869668-jh7hb 2/2 Running 0 12m
productpage-v1-6fc77ff794-nsl8r 2/2 Running 0 12m
ratings-v1-7d7d8d8b56-55scn 2/2 Running 0 12m
reviews-v1-868597db96-bdxgq 2/2 Running 0 12m
reviews-v2-5b64f47978-cvssp 2/2 Running 0 12m
reviews-v3-6dfd49b55b-vcwpf 2/2 Running 0 12m
Run the following command to retrieve the URL for the product page:
echo "http://$GATEWAY_URL/productpage"
Copy and paste the output in a web browser to verify the Bookinfo product page is deployed.
Obtain the address for the Kiali web console.
Log in to the OpenShift Container Platform web console as a user with cluster-admin
rights. If you use Red Hat OpenShift Dedicated, you must have an account with the dedicated-admin
role.
Navigate to Networking → Routes.
On the Routes page, select the service Mesh control plane project, for example istio-system
, from the Namespace menu.
The Location column displays the linked address for each route.
Click the link in the Location column for Kiali.
Click Log In With OpenShift. The Kiali Overview screen presents tiles for each project namespace.
In Kiali, click Graph.
Select bookinfo from the Namespace list, and App graph from the Graph Type list.
Click Display idle nodes from the Display menu.
This displays nodes that are defined but have not received or sent requests. It can confirm that an application is properly defined, but that no request traffic has been reported.
Use the Duration menu to increase the time period to help ensure older traffic is captured.
Use the Refresh Rate menu to refresh traffic more or less often, or not at all.
Click services, Workloads or Istio Config to see list views of bookinfo components, and confirm that they are healthy.
Follow these steps to remove the Bookinfo application.
OpenShift Container Platform 4.1 or higher installed.
Red Hat OpenShift service Mesh 2.2.3 installed.
Access to the OpenShift CLI (oc
).
Log in to the OpenShift Container Platform web console.
Click to Home → Projects.
Click the bookinfo
menu , and then click Delete Project.
Type bookinfo
in the confirmation dialog box, and then click Delete.
Alternatively, you can run this command using the CLI to create the bookinfo
project.
$ oc delete project bookinfo
Log in to the OpenShift Container Platform web console.
Click Operators → Installed Operators.
Click the Project menu and choose istio-system
from the list.
Click the Istio service Mesh Member Roll link under Provided APIS for the Red Hat OpenShift service Mesh Operator.
Click the serviceMeshMemberRoll
menu and select Edit service Mesh Member Roll.
Edit the default service Mesh Member Roll YAML and remove bookinfo
from the members list.
Alternatively, you can run this command using the CLI to remove the bookinfo
project from the serviceMeshMemberRoll
. In this example, istio-system
is the name of the service Mesh control plane project.
$ oc -n istio-system patch --type='json' smmr default -p '[{"op": "remove", "path": "/spec/members", "value":["'"bookinfo"'"]}]'
Click Save to update service Mesh Member Roll.
Jaeger is an open source distributed tracing system. With Jaeger, you can perform a trace that follows the path of a request through various microservices which make up an application. Jaeger is installed by default as part of the service Mesh.
This tutorial uses service Mesh and the Bookinfo sample application to demonstrate how you can use Jaeger to perform distributed tracing.
OpenShift Container Platform 4.1 or higher installed.
Red Hat OpenShift service Mesh 2.2.3 installed.
Jaeger enabled during the installation.
Bookinfo example application installed.
After installing the Bookinfo sample application, send traffic to the mesh. Enter the following command several times.
$ curl "http://$GATEWAY_URL/productpage"
This command simulates a user visiting the productpage
microservice of the application.
In the OpenShift Container Platform console, navigate to Networking → Routes and search for the Jaeger route, which is the URL listed under Location.
Alternatively, use the CLI to query for details of the route. In this example, istio-system
is the service Mesh control plane namespace:
$ export JAEGER_URL=$(oc get route -n istio-system jaeger -o jsonpath='{.spec.host}')
Enter the following command to reveal the URL for the Jaeger console. Paste the result in a browser and navigate to that URL.
echo $JAEGER_URL
Log in using the same user name and password as you use to access the OpenShift Container Platform console.
In the left pane of the Jaeger dashboard, from the service menu, select productpage.bookinfo and click Find Traces at the bottom of the pane. A list of traces is displayed.
Click one of the traces in the list to open a detailed view of that trace. If you click the first one in the list, which is the most recent trace, you see the details that correspond to the latest refresh of the /productpage
.