apiVersion: config.openshift.io/v1
kind: Ingress
metadata:
name: cluster
spec:
domain: apps.openshiftdemos.com
When you create your OpenShift Dedicated cluster, pods and services running on the cluster are each allocated their own IP addresses. The IP addresses are accessible to other pods and services running nearby but are not accessible to outside clients. The Ingress Operator implements the IngressController
API and is the component responsible for enabling external access to OpenShift Dedicated cluster services.
The Ingress Operator makes it possible for external clients to access your service by deploying and managing one or more HAProxy-based Ingress Controllers to handle routing. Red Hat Site Reliability Engineers (SRE) manage the Ingress Operator for OpenShift Dedicated clusters. While you cannot alter the settings for the Ingress Operator, you may view the default Ingress Controller configurations, status, and logs as well as the Ingress Operator status.
The installation program generates an asset with an Ingress
resource in the config.openshift.io
API group, cluster-ingress-02-config.yml
.
Ingress
resourceapiVersion: config.openshift.io/v1
kind: Ingress
metadata:
name: cluster
spec:
domain: apps.openshiftdemos.com
The installation program stores this asset in the cluster-ingress-02-config.yml
file in the manifests/
directory. This Ingress
resource defines the cluster-wide configuration for Ingress. This Ingress configuration is used as follows:
The Ingress Operator uses the domain from the cluster Ingress configuration as the domain for the default Ingress Controller.
The OpenShift API Server Operator uses the domain from the cluster Ingress configuration. This domain is also used when generating a default host for a Route
resource that does not specify an explicit host.
The IngressController
custom resource (CR) includes optional configuration parameters that you can configure to meet specific needs for your organization.
Parameter | Description | ||||
---|---|---|---|---|---|
|
The If empty, the default value is |
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For cloud environments, use the You can configure the following
If not set, the default value is based on
For most platforms, the
If you need to update the
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The The secret must contain the following keys and data:
* If not set, a wildcard certificate is automatically generated and used. The certificate is valid for the Ingress Controller The in-use certificate, whether generated or user-specified, is automatically integrated with OpenShift Dedicated built-in OAuth server. |
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If not set, the defaults values are used.
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If not set, the default value is based on the When using the The minimum TLS version for Ingress Controllers is
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The The |
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By setting the By default, the policy is set to
By setting These adjustments are only applied to cleartext, edge-terminated, and re-encrypt routes, and only when using HTTP/1. For request headers, these adjustments are applied only for routes that have the
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For any cookie that you want to capture, the following parameters must be in your
For example:
|
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The
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The
These connections come from load balancer health probes or web browser speculative connections (preconnect) and can be safely ignored. However, these requests can be caused by network errors, so setting this field to |
TLS security profiles provide a way for servers to regulate which ciphers a connecting client can use when connecting to the server.
You can use a TLS (Transport Layer Security) security profile to define which TLS ciphers are required by various OpenShift Dedicated components. The OpenShift Dedicated TLS security profiles are based on Mozilla recommended configurations.
You can specify one of the following TLS security profiles for each component:
Profile | Description | ||
---|---|---|---|
|
This profile is intended for use with legacy clients or libraries. The profile is based on the Old backward compatibility recommended configuration. The
|
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|
This profile is the recommended configuration for the majority of clients. It is the default TLS security profile for the Ingress Controller, kubelet, and control plane. The profile is based on the Intermediate compatibility recommended configuration. The |
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This profile is intended for use with modern clients that have no need for backwards compatibility. This profile is based on the Modern compatibility recommended configuration. The |
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This profile allows you to define the TLS version and ciphers to use.
|
When using one of the predefined profile types, the effective profile configuration is subject to change between releases. For example, given a specification to use the Intermediate profile deployed on release X.Y.Z, an upgrade to release X.Y.Z+1 might cause a new profile configuration to be applied, resulting in a rollout. |
To configure a TLS security profile for an Ingress Controller, edit the IngressController
custom resource (CR) to specify a predefined or custom TLS security profile. If a TLS security profile is not configured, the default value is based on the TLS security profile set for the API server.
IngressController
CR that configures the Old
TLS security profileapiVersion: operator.openshift.io/v1
kind: IngressController
...
spec:
tlsSecurityProfile:
old: {}
type: Old
...
The TLS security profile defines the minimum TLS version and the TLS ciphers for TLS connections for Ingress Controllers.
You can see the ciphers and the minimum TLS version of the configured TLS security profile in the IngressController
custom resource (CR) under Status.Tls Profile
and the configured TLS security profile under Spec.Tls Security Profile
. For the Custom
TLS security profile, the specific ciphers and minimum TLS version are listed under both parameters.
The HAProxy Ingress Controller image supports TLS The Ingress Operator also converts the TLS |
You have access to the cluster as a user with the cluster-admin
role.
Edit the IngressController
CR in the openshift-ingress-operator
project to configure the TLS security profile:
$ oc edit IngressController default -n openshift-ingress-operator
Add the spec.tlsSecurityProfile
field:
IngressController
CR for a Custom
profileapiVersion: operator.openshift.io/v1
kind: IngressController
...
spec:
tlsSecurityProfile:
type: Custom (1)
custom: (2)
ciphers: (3)
- ECDHE-ECDSA-CHACHA20-POLY1305
- ECDHE-RSA-CHACHA20-POLY1305
- ECDHE-RSA-AES128-GCM-SHA256
- ECDHE-ECDSA-AES128-GCM-SHA256
minTLSVersion: VersionTLS11
...
1 | Specify the TLS security profile type (Old , Intermediate , or Custom ). The default is Intermediate . |
2 | Specify the appropriate field for the selected type:
|
3 | For the custom type, specify a list of TLS ciphers and minimum accepted TLS version. |
Save the file to apply the changes.
Verify that the profile is set in the IngressController
CR:
$ oc describe IngressController default -n openshift-ingress-operator
Name: default
Namespace: openshift-ingress-operator
Labels: <none>
Annotations: <none>
API Version: operator.openshift.io/v1
Kind: IngressController
...
Spec:
...
Tls Security Profile:
Custom:
Ciphers:
ECDHE-ECDSA-CHACHA20-POLY1305
ECDHE-RSA-CHACHA20-POLY1305
ECDHE-RSA-AES128-GCM-SHA256
ECDHE-ECDSA-AES128-GCM-SHA256
Min TLS Version: VersionTLS11
Type: Custom
...
You can configure the Ingress Controller to enable mutual TLS (mTLS) authentication by setting a spec.clientTLS
value. The clientTLS
value configures the Ingress Controller to verify client certificates. This configuration includes setting a clientCA
value, which is a reference to a config map. The config map contains the PEM-encoded CA certificate bundle that is used to verify a client’s certificate. Optionally, you can also configure a list of certificate subject filters.
If the clientCA
value specifies an X509v3 certificate revocation list (CRL) distribution point, the Ingress Operator downloads and manages a CRL config map based on the HTTP URI X509v3 CRL Distribution Point
specified in each provided certificate. The Ingress Controller uses this config map during mTLS/TLS negotiation. Requests that do not provide valid certificates are rejected.
You have access to the cluster as a user with the cluster-admin
role.
You have a PEM-encoded CA certificate bundle.
If your CA bundle references a CRL distribution point, you must have also included the end-entity or leaf certificate to the client CA bundle. This certificate must have included an HTTP URI under CRL Distribution Points
, as described in RFC 5280. For example:
Issuer: C=US, O=Example Inc, CN=Example Global G2 TLS RSA SHA256 2020 CA1
Subject: SOME SIGNED CERT X509v3 CRL Distribution Points:
Full Name:
URI:http://crl.example.com/example.crl
In the openshift-config
namespace, create a config map from your CA bundle:
$ oc create configmap \
router-ca-certs-default \
--from-file=ca-bundle.pem=client-ca.crt \(1)
-n openshift-config
1 | The config map data key must be ca-bundle.pem , and the data value must be a CA certificate in PEM format. |
Edit the IngressController
resource in the openshift-ingress-operator
project:
$ oc edit IngressController default -n openshift-ingress-operator
Add the spec.clientTLS
field and subfields to configure mutual TLS:
IngressController
CR for a clientTLS
profile that specifies filtering patterns apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
name: default
namespace: openshift-ingress-operator
spec:
clientTLS:
clientcertificatePolicy: Required
clientCA:
name: router-ca-certs-default
allowedSubjectPatterns:
- "^/CN=example.com/ST=NC/C=US/O=Security/OU=OpenShift$"
Optional, get the Distinguished Name (DN) for allowedSubjectPatterns
by entering the following command.
$ openssl x509 -in custom-cert.pem -noout -subject subject= /CN=example.com/ST=NC/C=US/O=Security/OU=OpenShift
The Ingress Operator is a core feature of OpenShift Dedicated and is enabled out of the box.
Every new OpenShift Dedicated installation has an ingresscontroller
named default. It
can be supplemented with additional Ingress Controllers. If the default
ingresscontroller
is deleted, the Ingress Operator will automatically recreate it
within a minute.
View the default Ingress Controller:
$ oc describe --namespace=openshift-ingress-operator ingresscontroller/default
You can view and inspect the status of your Ingress Operator.
View your Ingress Operator status:
$ oc describe clusteroperators/ingress
You can view your Ingress Controller logs.
View your Ingress Controller logs:
$ oc logs --namespace=openshift-ingress-operator deployments/ingress-operator -c <container_name>
Your can view the status of a particular Ingress Controller.
View the status of an Ingress Controller:
$ oc describe --namespace=openshift-ingress-operator ingresscontroller/<name>
As a cluster administrator, you can create a new custom Ingress Controller. Because the default Ingress Controller might change during OpenShift Dedicated updates, creating a custom Ingress Controller can be helpful when maintaining a configuration manually that persists across cluster updates.
This example provides a minimal spec for a custom Ingress Controller. To further customize your custom Ingress Controller, see "Configuring the Ingress Controller".
Install the OpenShift CLI (oc
).
Log in as a user with cluster-admin
privileges.
Create a YAML file that defines the custom IngressController
object:
custom-ingress-controller.yaml
fileapiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
name: <custom_name> (1)
namespace: openshift-ingress-operator
spec:
defaultcertificate:
name: <custom-ingress-custom-certs> (2)
replicas: 1 (3)
domain: <custom_domain> (4)
1 | Specify the a custom name for the IngressController object. |
2 | Specify the name of the secret with the custom wildcard certificate. |
3 | Minimum replica needs to be ONE |
4 | Specify the domain to your domain name. The domain specified on the IngressController object and the domain used for the certificate must match. For example, if the domain value is "custom_domain.mycompany.com", then the certificate must have SAN *.custom_domain.mycompany.com (with the *. added to the domain). |
Create the object by running the following command:
$ oc create -f custom-ingress-controller.yaml
As an administrator, you can configure an Ingress Controller to use a custom
certificate by creating a Secret resource and editing the IngressController
custom resource (CR).
You must have a certificate/key pair in PEM-encoded files, where the certificate is signed by a trusted certificate authority or by a private trusted certificate authority that you configured in a custom PKI.
Your certificate meets the following requirements:
The certificate is valid for the ingress domain.
The certificate uses the subjectAltName
extension to specify a wildcard domain, such as *.apps.ocp4.example.com
.
You must have an IngressController
CR. You may use the default one:
$ oc --namespace openshift-ingress-operator get ingresscontrollers
NAME AGE
default 10m
If you have intermediate certificates, they must be included in the |
The following assumes that the custom certificate and key pair are in the
tls.crt
and tls.key
files in the current working directory. Substitute the
actual path names for tls.crt
and tls.key
. You also may substitute another
name for custom-certs-default
when creating the Secret resource and
referencing it in the IngressController CR.
This action will cause the Ingress Controller to be redeployed, using a rolling deployment strategy. |
Create a Secret resource containing the custom certificate in the
openshift-ingress
namespace using the tls.crt
and tls.key
files.
$ oc --namespace openshift-ingress create secret tls custom-certs-default --cert=tls.crt --key=tls.key
Update the IngressController CR to reference the new certificate secret:
$ oc patch --type=merge --namespace openshift-ingress-operator ingresscontrollers/default \
--patch '{"spec":{"defaultcertificate":{"name":"custom-certs-default"}}}'
Verify the update was effective:
$ echo Q |\
openssl s_client -connect console-openshift-console.apps.<domain>:443 -showcerts 2>/dev/null |\
openssl x509 -noout -subject -issuer -enddate
where:
<domain>
Specifies the base domain name for your cluster.
subject=C = US, ST = NC, L = Raleigh, O = RH, OU = OCP4, CN = *.apps.example.com
issuer=C = US, ST = NC, L = Raleigh, O = RH, OU = OCP4, CN = example.com
notAfter=May 10 08:32:45 2022 GM
You can alternatively apply the following YAML to set a custom default certificate:
|
The certificate secret name should match the value used to update the CR.
Once the IngressController CR has been modified, the Ingress Operator updates the Ingress Controller’s deployment to use the custom certificate.
As an administrator, you can remove a custom certificate that you configured an Ingress Controller to use.
You have access to the cluster as a user with the cluster-admin
role.
You have installed the OpenShift CLI (oc
).
You previously configured a custom default certificate for the Ingress Controller.
To remove the custom certificate and restore the certificate that ships with OpenShift Dedicated, enter the following command:
$ oc patch -n openshift-ingress-operator ingresscontrollers/default \
--type json -p $'- op: remove\n path: /spec/defaultcertificate'
There can be a delay while the cluster reconciles the new certificate configuration.
To confirm that the original cluster certificate is restored, enter the following command:
$ echo Q | \
openssl s_client -connect console-openshift-console.apps.<domain>:443 -showcerts 2>/dev/null | \
openssl x509 -noout -subject -issuer -enddate
where:
<domain>
Specifies the base domain name for your cluster.
subject=CN = *.apps.<domain>
issuer=CN = ingress-operator@1620633373
notAfter=May 10 10:44:36 2023 GMT
You can automatically scale an Ingress Controller to dynamically meet routing performance or availability requirements, such as the requirement to increase throughput.
The following procedure provides an example for scaling up the default Ingress Controller.
You have the OpenShift CLI (oc
) installed.
You have access to an OpenShift Dedicated cluster as a user with the cluster-admin
role.
You installed the Custom Metrics Autoscaler Operator and an associated KEDA Controller.
You can install the Operator by using OperatorHub on the web console. After you install the Operator, you can create an instance of KedaController
.
Create a service account to authenticate with Thanos by running the following command:
$ oc create -n openshift-ingress-operator serviceaccount thanos && oc describe -n openshift-ingress-operator serviceaccount thanos
Name: thanos
Namespace: openshift-ingress-operator
Labels: <none>
Annotations: <none>
Image pull secrets: thanos-dockercfg-kfvf2
Mountable secrets: thanos-dockercfg-kfvf2
Tokens: <none>
Events: <none>
Manually create the service account secret token with the following command:
$ oc apply -f - <<EOF
apiVersion: v1
kind: Secret
metadata:
name: thanos-token
namespace: openshift-ingress-operator
annotations:
kubernetes.io/service-account.name: thanos
type: kubernetes.io/service-account-token
EOF
Define a TriggerAuthentication
object within the openshift-ingress-operator
namespace by using the service account’s token.
Create the TriggerAuthentication
object and pass the value of the secret
variable to the TOKEN
parameter:
$ oc apply -f - <<EOF
apiVersion: keda.sh/v1alpha1
kind: TriggerAuthentication
metadata:
name: keda-trigger-auth-prometheus
namespace: openshift-ingress-operator
spec:
secretTargetRef:
- parameter: bearerToken
name: thanos-token
key: token
- parameter: ca
name: thanos-token
key: ca.crt
EOF
Create and apply a role for reading metrics from Thanos:
Create a new role, thanos-metrics-reader.yaml
, that reads metrics from pods and nodes:
apiVersion: rbac.authorization.k8s.io/v1
kind: Role
metadata:
name: thanos-metrics-reader
namespace: openshift-ingress-operator
rules:
- apiGroups:
- ""
resources:
- pods
- nodes
verbs:
- get
- apiGroups:
- metrics.k8s.io
resources:
- pods
- nodes
verbs:
- get
- list
- watch
- apiGroups:
- ""
resources:
- namespaces
verbs:
- get
Apply the new role by running the following command:
$ oc apply -f thanos-metrics-reader.yaml
Add the new role to the service account by entering the following commands:
$ oc adm policy -n openshift-ingress-operator add-role-to-user thanos-metrics-reader -z thanos --role-namespace=openshift-ingress-operator
$ oc adm policy -n openshift-ingress-operator add-cluster-role-to-user cluster-monitoring-view -z thanos
The argument |
Create a new ScaledObject
YAML file, ingress-autoscaler.yaml
, that targets the default Ingress Controller deployment:
ScaledObject
definitionapiVersion: keda.sh/v1alpha1
kind: ScaledObject
metadata:
name: ingress-scaler
namespace: openshift-ingress-operator
spec:
scaleTargetRef: (1)
apiVersion: operator.openshift.io/v1
kind: IngressController
name: default
envSourceContainerName: ingress-operator
minReplicaCount: 1
maxReplicaCount: 20 (2)
cooldownPeriod: 1
pollingInterval: 1
triggers:
- type: prometheus
metricType: AverageValue
metadata:
serverAddress: https://thanos-querier.openshift-monitoring.svc.cluster.local:9091 (3)
namespace: openshift-ingress-operator (4)
metricName: 'kube-node-role'
threshold: '1'
query: 'sum(kube_node_role{role="worker",service="kube-state-metrics"})' (5)
authModes: "bearer"
authenticationRef:
name: keda-trigger-auth-prometheus
1 | The custom resource that you are targeting. In this case, the Ingress Controller. |
2 | Optional: The maximum number of replicas. If you omit this field, the default maximum is set to 100 replicas. |
3 | The Thanos service endpoint in the openshift-monitoring namespace. |
4 | The Ingress Operator namespace. |
5 | This expression evaluates to however many worker nodes are present in the deployed cluster. |
If you are using cross-namespace queries, you must target port 9091 and not port 9092 in the |
Apply the custom resource definition by running the following command:
$ oc apply -f ingress-autoscaler.yaml
Verify that the default Ingress Controller is scaled out to match the value returned by the kube-state-metrics
query by running the following commands:
Use the grep
command to search the Ingress Controller YAML file for replicas:
$ oc get -n openshift-ingress-operator ingresscontroller/default -o yaml | grep replicas:
replicas: 3
Get the pods in the openshift-ingress
project:
$ oc get pods -n openshift-ingress
NAME READY STATUS RESTARTS AGE
router-default-7b5df44ff-l9pmm 2/2 Running 0 17h
router-default-7b5df44ff-s5sl5 2/2 Running 0 3d22h
router-default-7b5df44ff-wwsth 2/2 Running 0 66s
Manually scale an Ingress Controller to meeting routing performance or
availability requirements such as the requirement to increase throughput. oc
commands are used to scale the IngressController
resource. The following
procedure provides an example for scaling up the default IngressController
.
Scaling is not an immediate action, as it takes time to create the desired number of replicas. |
View the current number of available replicas for the default IngressController
:
$ oc get -n openshift-ingress-operator ingresscontrollers/default -o jsonpath='{$.status.availableReplicas}'
2
Scale the default IngressController
to the desired number of replicas using
the oc patch
command. The following example scales the default IngressController
to 3 replicas:
$ oc patch -n openshift-ingress-operator ingresscontroller/default --patch '{"spec":{"replicas": 3}}' --type=merge
ingresscontroller.operator.openshift.io/default patched
Verify that the default IngressController
scaled to the number of replicas
that you specified:
$ oc get -n openshift-ingress-operator ingresscontrollers/default -o jsonpath='{$.status.availableReplicas}'
3
You can alternatively apply the following YAML to scale an Ingress Controller to three replicas:
|
1 | If you need a different amount of replicas, change the replicas value. |
You can configure the Ingress Controller to enable access logs. If you have clusters that do not receive much traffic, then you can log to a sidecar. If you have high traffic clusters, to avoid exceeding the capacity of the logging stack or to integrate with a logging infrastructure outside of OpenShift Dedicated, you can forward logs to a custom syslog endpoint. You can also specify the format for access logs.
Container logging is useful to enable access logs on low-traffic clusters when there is no existing Syslog logging infrastructure, or for short-term use while diagnosing problems with the Ingress Controller.
Syslog is needed for high-traffic clusters where access logs could exceed the OpenShift Logging stack’s capacity, or for environments where any logging solution needs to integrate with an existing Syslog logging infrastructure. The Syslog use-cases can overlap.
Log in as a user with cluster-admin
privileges.
Configure Ingress access logging to a sidecar.
To configure Ingress access logging, you must specify a destination using spec.logging.access.destination
. To specify logging to a sidecar container, you must specify Container
spec.logging.access.destination.type
. The following example is an Ingress Controller definition that logs to a Container
destination:
apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
name: default
namespace: openshift-ingress-operator
spec:
replicas: 2
logging:
access:
destination:
type: Container
When you configure the Ingress Controller to log to a sidecar, the operator creates a container named logs
inside the Ingress Controller Pod:
$ oc -n openshift-ingress logs deployment.apps/router-default -c logs
2020-05-11T19:11:50.135710+00:00 router-default-57dfc6cd95-bpmk6 router-default-57dfc6cd95-bpmk6 haproxy[108]: 174.19.21.82:39654 [11/May/2020:19:11:50.133] public be_http:hello-openshift:hello-openshift/pod:hello-openshift:hello-openshift:10.128.2.12:8080 0/0/1/0/1 200 142 - - --NI 1/1/0/0/0 0/0 "GET / HTTP/1.1"
Configure Ingress access logging to a Syslog endpoint.
To configure Ingress access logging, you must specify a destination using spec.logging.access.destination
. To specify logging to a Syslog endpoint destination, you must specify Syslog
for spec.logging.access.destination.type
. If the destination type is Syslog
, you must also specify a destination endpoint using spec.logging.access.destination.syslog.address
and you can specify a facility using spec.logging.access.destination.syslog.facility
. The following example is an Ingress Controller definition that logs to a Syslog
destination:
apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
name: default
namespace: openshift-ingress-operator
spec:
replicas: 2
logging:
access:
destination:
type: Syslog
syslog:
address: 1.2.3.4
port: 10514
The The |
Configure Ingress access logging with a specific log format.
You can specify spec.logging.access.httpLogFormat
to customize the log format. The following example is an Ingress Controller definition that logs to a syslog
endpoint with IP address 1.2.3.4 and port 10514:
apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
name: default
namespace: openshift-ingress-operator
spec:
replicas: 2
logging:
access:
destination:
type: Syslog
syslog:
address: 1.2.3.4
port: 10514
httpLogFormat: '%ci:%cp [%t] %ft %b/%s %B %bq %HM %HU %HV'
Disable Ingress access logging.
To disable Ingress access logging, leave spec.logging
or spec.logging.access
empty:
apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
name: default
namespace: openshift-ingress-operator
spec:
replicas: 2
logging:
access: null
Allow the Ingress Controller to modify the HAProxy log length when using a sidecar.
Use spec.logging.access.destination.syslog.maxLength
if you are using spec.logging.access.destination.type: Syslog
.
apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
name: default
namespace: openshift-ingress-operator
spec:
replicas: 2
logging:
access:
destination:
type: Syslog
syslog:
address: 1.2.3.4
maxLength: 4096
port: 10514
Use spec.logging.access.destination.container.maxLength
if you are using spec.logging.access.destination.type: Container
.
apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
name: default
namespace: openshift-ingress-operator
spec:
replicas: 2
logging:
access:
destination:
type: Container
container:
maxLength: 8192
A cluster administrator can set the thread count to increase the amount of incoming connections a cluster can handle. You can patch an existing Ingress Controller to increase the amount of threads.
The following assumes that you already created an Ingress Controller.
Update the Ingress Controller to increase the number of threads:
$ oc -n openshift-ingress-operator patch ingresscontroller/default --type=merge -p '{"spec":{"tuningOptions": {"threadCount": 8}}}'
If you have a node that is capable of running large amounts of resources, you can configure |
When creating an Ingress Controller on cloud platforms, the Ingress Controller is published by a public cloud load balancer by default. As an administrator, you can create an Ingress Controller that uses an internal cloud load balancer.
If you want to change the |
The preceding graphic shows the following concepts pertaining to OpenShift Dedicated Ingress LoadBalancerService endpoint publishing strategy:
You can load balance externally, using the cloud provider load balancer, or internally, using the OpenShift Ingress Controller Load Balancer.
You can use the single IP address of the load balancer and more familiar ports, such as 8080 and 4200 as shown on the cluster depicted in the graphic.
Traffic from the external load balancer is directed at the pods, and managed by the load balancer, as depicted in the instance of a down node. See the Kubernetes Services documentation for implementation details.
Install the OpenShift CLI (oc
).
Log in as a user with cluster-admin
privileges.
Create an IngressController
custom resource (CR) in a file named <name>-ingress-controller.yaml
, such as in the following example:
apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
namespace: openshift-ingress-operator
name: <name> (1)
spec:
domain: <domain> (2)
endpointPublishingStrategy:
type: LoadBalancerService
loadBalancer:
scope: Internal (3)
1 | Replace <name> with a name for the IngressController object. |
2 | Specify the domain for the application published by the controller. |
3 | Specify a value of Internal to use an internal load balancer. |
Create the Ingress Controller defined in the previous step by running the following command:
$ oc create -f <name>-ingress-controller.yaml (1)
1 | Replace <name> with the name of the IngressController object. |
Optional: Confirm that the Ingress Controller was created by running the following command:
$ oc --all-namespaces=true get ingresscontrollers
A cluster administrator can set the health check interval to define how long the router waits between two consecutive health checks. This value is applied globally as a default for all routes. The default value is 5 seconds.
The following assumes that you already created an Ingress Controller.
Update the Ingress Controller to change the interval between back end health checks:
$ oc -n openshift-ingress-operator patch ingresscontroller/default --type=merge -p '{"spec":{"tuningOptions": {"healthCheckInterval": "8s"}}}'
To override the |
You can configure the default
Ingress Controller for your cluster to be internal by deleting and recreating it.
If you want to change the |
Install the OpenShift CLI (oc
).
Log in as a user with cluster-admin
privileges.
Configure the default
Ingress Controller for your cluster to be internal by deleting and recreating it.
$ oc replace --force --wait --filename - <<EOF
apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
namespace: openshift-ingress-operator
name: default
spec:
endpointPublishingStrategy:
type: LoadBalancerService
loadBalancer:
scope: Internal
EOF
Administrators and application developers can run applications in multiple namespaces with the same domain name. This is for organizations where multiple teams develop microservices that are exposed on the same hostname.
Allowing claims across namespaces should only be enabled for clusters with trust between namespaces, otherwise a malicious user could take over a hostname. For this reason, the default admission policy disallows hostname claims across namespaces. |
Cluster administrator privileges.
Edit the .spec.routeAdmission
field of the ingresscontroller
resource variable using the following command:
$ oc -n openshift-ingress-operator patch ingresscontroller/default --patch '{"spec":{"routeAdmission":{"namespaceOwnership":"InterNamespaceAllowed"}}}' --type=merge
spec:
routeAdmission:
namespaceOwnership: InterNamespaceAllowed
...
You can alternatively apply the following YAML to configure the route admission policy:
|
The HAProxy Ingress Controller has support for wildcard routes. The Ingress Operator uses wildcardPolicy
to configure the ROUTER_ALLOW_WILDCARD_ROUTES
environment variable of the Ingress Controller.
The default behavior of the Ingress Controller is to admit routes with a wildcard policy of None
, which is backwards compatible with existing IngressController
resources.
Configure the wildcard policy.
Use the following command to edit the IngressController
resource:
$ oc edit IngressController
Under spec
, set the wildcardPolicy
field to WildcardsDisallowed
or WildcardsAllowed
:
spec:
routeAdmission:
wildcardPolicy: WildcardsDisallowed # or WildcardsAllowed
OpenShift Dedicated provides different methods for working with HTTP headers. When setting or deleting headers, you can use specific fields in the Ingress Controller or an individual route to modify request and response headers. You can also set certain headers by using route annotations. The various ways of configuring headers can present challenges when working together.
You can only set or delete headers within an |
When the same HTTP header is modified both in the Ingress Controller and in a route, HAProxy prioritizes the actions in certain ways depending on whether it is a request or response header.
For HTTP response headers, actions specified in the Ingress Controller are executed after the actions specified in a route. This means that the actions specified in the Ingress Controller take precedence.
For HTTP request headers, actions specified in a route are executed after the actions specified in the Ingress Controller. This means that the actions specified in the route take precedence.
For example, a cluster administrator sets the X-Frame-Options response header with the value DENY
in the Ingress Controller using the following configuration:
IngressController
specapiVersion: operator.openshift.io/v1
kind: IngressController
# ...
spec:
httpHeaders:
actions:
response:
- name: X-Frame-Options
action:
type: Set
set:
value: DENY
A route owner sets the same response header that the cluster administrator set in the Ingress Controller, but with the value SAMEORIGIN
using the following configuration:
Route
specapiVersion: route.openshift.io/v1
kind: Route
# ...
spec:
httpHeaders:
actions:
response:
- name: X-Frame-Options
action:
type: Set
set:
value: SAMEORIGIN
When both the IngressController
spec and Route
spec are configuring the X-Frame-Options response header, then the value set for this header at the global level in the Ingress Controller takes precedence, even if a specific route allows frames. For a request header, the Route
spec value overrides the IngressController
spec value.
This prioritization occurs because the haproxy.config
file uses the following logic, where the Ingress Controller is considered the front end and individual routes are considered the back end. The header value DENY
applied to the front end configurations overrides the same header with the value SAMEORIGIN
that is set in the back end:
frontend public
http-response set-header X-Frame-Options 'DENY'
frontend fe_sni
http-response set-header X-Frame-Options 'DENY'
frontend fe_no_sni
http-response set-header X-Frame-Options 'DENY'
backend be_secure:openshift-monitoring:alertmanager-main
http-response set-header X-Frame-Options 'SAMEORIGIN'
Additionally, any actions defined in either the Ingress Controller or a route override values set using route annotations.
The following headers are either prevented entirely from being set or deleted, or allowed under specific circumstances:
Header name | Configurable using IngressController spec |
Configurable using Route spec |
Reason for disallowment | Configurable using another method |
---|---|---|---|---|
|
No |
No |
The |
No |
|
No |
Yes |
When the |
No |
|
No |
No |
The |
Yes: the |
|
No |
No |
The cookies that HAProxy sets are used for session tracking to map client connections to particular back-end servers. Allowing these headers to be set could interfere with HAProxy’s session affinity and restrict HAProxy’s ownership of a cookie. |
Yes:
|
You can set or delete certain HTTP request and response headers for compliance purposes or other reasons. You can set or delete these headers either for all routes served by an Ingress Controller or for specific routes.
For example, you might want to migrate an application running on your cluster to use mutual TLS, which requires that your application checks for an X-Forwarded-Client-Cert request header, but the OpenShift Dedicated default Ingress Controller provides an X-SSL-Client-Der request header.
The following procedure modifies the Ingress Controller to set the X-Forwarded-Client-Cert request header, and delete the X-SSL-Client-Der request header.
You have installed the OpenShift CLI (oc
).
You have access to an OpenShift Dedicated cluster as a user with the cluster-admin
role.
Edit the Ingress Controller resource:
$ oc -n openshift-ingress-operator edit ingresscontroller/default
Replace the X-SSL-Client-Der HTTP request header with the X-Forwarded-Client-Cert HTTP request header:
apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
name: default
namespace: openshift-ingress-operator
spec:
httpHeaders:
actions: (1)
request: (2)
- name: X-Forwarded-Client-Cert (3)
action:
type: Set (4)
set:
value: "%{+Q}[ssl_c_der,base64]" (5)
- name: X-SSL-Client-Der
action:
type: Delete
1 | The list of actions you want to perform on the HTTP headers. |
2 | The type of header you want to change. In this case, a request header. |
3 | The name of the header you want to change. For a list of available headers you can set or delete, see HTTP header configuration. |
4 | The type of action being taken on the header. This field can have the value Set or Delete . |
5 | When setting HTTP headers, you must provide a value . The value can be a string from a list of available directives for that header, for example DENY , or it can be a dynamic value that will be interpreted using HAProxy’s dynamic value syntax. In this case, a dynamic value is added. |
For setting dynamic header values for HTTP responses, allowed sample fetchers are |
Save the file to apply the changes.
You configure the HAProxy Ingress Controller to specify a policy for how to handle HTTP headers including Forwarded
and X-Forwarded-For
. The Ingress Operator uses the HTTPHeaders
field to configure the ROUTER_SET_FORWARDED_HEADERS
environment variable of the Ingress Controller.
Configure the HTTPHeaders
field for the Ingress Controller.
Use the following command to edit the IngressController
resource:
$ oc edit IngressController
Under spec
, set the HTTPHeaders
policy field to Append
, Replace
, IfNone
, or Never
:
apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
name: default
namespace: openshift-ingress-operator
spec:
httpHeaders:
forwardedHeaderPolicy: Append
As a cluster administrator, you can:
Configure an external proxy that injects the X-Forwarded-For
header into each request before forwarding it to an Ingress Controller.
To configure the Ingress Controller to pass the header through unmodified, you specify the never
policy. The Ingress Controller then never sets the headers, and applications receive only the headers that the external proxy provides.
Configure the Ingress Controller to pass the X-Forwarded-For
header that your external proxy sets on external cluster requests through unmodified.
To configure the Ingress Controller to set the X-Forwarded-For
header on internal cluster requests, which do not go through the external proxy, specify the if-none
policy. If an HTTP request already has the header set through the external proxy, then the Ingress Controller preserves it. If the header is absent because the request did not come through the proxy, then the Ingress Controller adds the header.
As an application developer, you can:
Configure an application-specific external proxy that injects the X-Forwarded-For
header.
To configure an Ingress Controller to pass the header through unmodified for an application’s Route, without affecting the policy for other Routes, add an annotation haproxy.router.openshift.io/set-forwarded-headers: if-none
or haproxy.router.openshift.io/set-forwarded-headers: never
on the Route for the application.
You can set the |
You can enable transparent end-to-end HTTP/2 connectivity in HAProxy. It allows application owners to make use of HTTP/2 protocol capabilities, including single connection, header compression, binary streams, and more.
You can enable HTTP/2 connectivity for an individual Ingress Controller or for the entire cluster.
To enable the use of HTTP/2 for the connection from the client to HAProxy, a route must specify a custom certificate. A route that uses the default certificate cannot use HTTP/2. This restriction is necessary to avoid problems from connection coalescing, where the client re-uses a connection for different routes that use the same certificate.
The connection from HAProxy to the application pod can use HTTP/2 only for re-encrypt routes and not for edge-terminated or insecure routes. This restriction is because HAProxy uses Application-Level Protocol Negotiation (ALPN), which is a TLS extension, to negotiate the use of HTTP/2 with the back-end. The implication is that end-to-end HTTP/2 is possible with passthrough and re-encrypt and not with insecure or edge-terminated routes.
For non-passthrough routes, the Ingress Controller negotiates its connection to the application independently of the connection from the client. This means a client may connect to the Ingress Controller and negotiate HTTP/1.1, and the Ingress Controller may then connect to the application, negotiate HTTP/2, and forward the request from the client HTTP/1.1 connection using the HTTP/2 connection to the application. This poses a problem if the client subsequently tries to upgrade its connection from HTTP/1.1 to the WebSocket protocol, because the Ingress Controller cannot forward WebSocket to HTTP/2 and cannot upgrade its HTTP/2 connection to WebSocket. Consequently, if you have an application that is intended to accept WebSocket connections, it must not allow negotiating the HTTP/2 protocol or else clients will fail to upgrade to the WebSocket protocol. |
Enable HTTP/2 on a single Ingress Controller.
To enable HTTP/2 on an Ingress Controller, enter the oc annotate
command:
$ oc -n openshift-ingress-operator annotate ingresscontrollers/<ingresscontroller_name> ingress.operator.openshift.io/default-enable-http2=true
Replace <ingresscontroller_name>
with the name of the Ingress Controller to annotate.
Enable HTTP/2 on the entire cluster.
To enable HTTP/2 for the entire cluster, enter the oc annotate
command:
$ oc annotate ingresses.config/cluster ingress.operator.openshift.io/default-enable-http2=true
You can alternatively apply the following YAML to add the annotation:
|
A cluster administrator can configure the PROXY protocol when an Ingress Controller uses either the HostNetwork
, NodePortService
, or Private
endpoint publishing strategy types. The PROXY protocol enables the load balancer to preserve the original client addresses for connections that the Ingress Controller receives. The original client addresses are useful for logging, filtering, and injecting HTTP headers. In the default configuration, the connections that the Ingress Controller receives only contain the source address that is associated with the load balancer.
The default Ingress Controller with installer-provisioned clusters on non-cloud platforms that use a Keepalived Ingress Virtual IP (VIP) do not support the PROXY protocol. |
The PROXY protocol enables the load balancer to preserve the original client addresses for connections that the Ingress Controller receives. The original client addresses are useful for logging, filtering, and injecting HTTP headers. In the default configuration, the connections that the Ingress Controller receives contain only the source IP address that is associated with the load balancer.
For a passthrough route configuration, servers in OpenShift Dedicated clusters cannot observe the original client source IP address. If you need to know the original client source IP address, configure Ingress access logging for your Ingress Controller so that you can view the client source IP addresses. For re-encrypt and edge routes, the OpenShift Dedicated router sets the For more information about Ingress access logging, see "Configuring Ingress access logging". |
Configuring the PROXY protocol for an Ingress Controller is not supported when using the LoadBalancerService
endpoint publishing strategy type. This restriction is because when OpenShift Dedicated runs in a cloud platform, and an Ingress Controller specifies that a service load balancer should be used, the Ingress Operator configures the load balancer service and enables the PROXY protocol based on the platform requirement for preserving source addresses.
You must configure both OpenShift Dedicated and the external load balancer to use either the PROXY protocol or TCP. |
This feature is not supported in cloud deployments. This restriction is because when OpenShift Dedicated runs in a cloud platform, and an Ingress Controller specifies that a service load balancer should be used, the Ingress Operator configures the load balancer service and enables the PROXY protocol based on the platform requirement for preserving source addresses.
You must configure both OpenShift Dedicated and the external load balancer to either use the PROXY protocol or to use Transmission Control Protocol (TCP). |
You created an Ingress Controller.
Edit the Ingress Controller resource by entering the following command in your CLI:
$ oc -n openshift-ingress-operator edit ingresscontroller/default
Set the PROXY configuration:
If your Ingress Controller uses the HostNetwork
endpoint publishing strategy type, set the spec.endpointPublishingStrategy.hostNetwork.protocol
subfield to PROXY
:
hostNetwork
configuration to PROXY
# ...
spec:
endpointPublishingStrategy:
hostNetwork:
protocol: PROXY
type: HostNetwork
# ...
If your Ingress Controller uses the NodePortService
endpoint publishing strategy type, set the spec.endpointPublishingStrategy.nodePort.protocol
subfield to PROXY
:
nodePort
configuration to PROXY
# ...
spec:
endpointPublishingStrategy:
nodePort:
protocol: PROXY
type: NodePortService
# ...
If your Ingress Controller uses the Private
endpoint publishing strategy type, set the spec.endpointPublishingStrategy.private.protocol
subfield to PROXY
:
private
configuration to PROXY
# ...
spec:
endpointPublishingStrategy:
private:
protocol: PROXY
type: Private
# ...
As a cluster administrator, you can specify an alternative to the default cluster domain for user-created routes by configuring the appsDomain
field. The appsDomain
field is an optional domain for OpenShift Dedicated to use instead of the default, which is specified in the domain
field. If you specify an alternative domain, it overrides the default cluster domain for the purpose of determining the default host for a new route.
For example, you can use the DNS domain for your company as the default domain for routes and ingresses for applications running on your cluster.
You deployed an OpenShift Dedicated cluster.
You installed the oc
command line interface.
Configure the appsDomain
field by specifying an alternative default domain for user-created routes.
Edit the ingress cluster
resource:
$ oc edit ingresses.config/cluster -o yaml
Edit the YAML file:
appsDomain
configuration to test.example.com
apiVersion: config.openshift.io/v1
kind: Ingress
metadata:
name: cluster
spec:
domain: apps.example.com (1)
appsDomain: <test.example.com> (2)
1 | Specifies the default domain. You cannot modify the default domain after installation. |
2 | Optional: Domain for OpenShift Dedicated infrastructure to use for application routes. Instead of the default prefix, apps , you can use an alternative prefix like test . |
Verify that an existing route contains the domain name specified in the appsDomain
field by exposing the route and verifying the route domain change:
Wait for the |
Expose the route:
$ oc expose service hello-openshift
route.route.openshift.io/hello-openshift exposed
$ oc get routes
NAME HOST/PORT PATH SERVICES PORT TERMINATION WILDCARD
hello-openshift hello_openshift-<my_project>.test.example.com
hello-openshift 8080-tcp None
HAProxy lowercases HTTP header names by default; for example, changing Host: xyz.com
to host: xyz.com
. If legacy applications are sensitive to the capitalization of HTTP header names, use the Ingress Controller spec.httpHeaders.headerNameCaseAdjustments
API field for a solution to accommodate legacy applications until they can be fixed.
OpenShift Dedicated includes HAProxy 2.8. If you want to update to this version of the web-based load balancer, ensure that you add the |
As a cluster administrator, you can convert the HTTP header case by entering the oc patch
command or by setting the HeaderNameCaseAdjustments
field in the Ingress Controller YAML file.
You have installed the OpenShift CLI (oc
).
You have access to the cluster as a user with the cluster-admin
role.
Capitalize an HTTP header by using the oc patch
command.
Change the HTTP header from host
to Host
by running the following command:
$ oc -n openshift-ingress-operator patch ingresscontrollers/default --type=merge --patch='{"spec":{"httpHeaders":{"headerNameCaseAdjustments":["Host"]}}}'
Create a Route
resource YAML file so that the annotation can be applied to the application.
my-application
apiVersion: route.openshift.io/v1
kind: Route
metadata:
annotations:
haproxy.router.openshift.io/h1-adjust-case: true (1)
name: <application_name>
namespace: <application_name>
# ...
1 | Set haproxy.router.openshift.io/h1-adjust-case so that the Ingress Controller can adjust the host request header as specified. |
Specify adjustments by configuring the HeaderNameCaseAdjustments
field in the Ingress Controller YAML configuration file.
The following example Ingress Controller YAML file adjusts the host
header to Host
for HTTP/1 requests to appropriately annotated routes:
apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
name: default
namespace: openshift-ingress-operator
spec:
httpHeaders:
headerNameCaseAdjustments:
- Host
The following example route enables HTTP response header name case adjustments by using the haproxy.router.openshift.io/h1-adjust-case
annotation:
apiVersion: route.openshift.io/v1
kind: Route
metadata:
annotations:
haproxy.router.openshift.io/h1-adjust-case: true (1)
name: my-application
namespace: my-application
spec:
to:
kind: Service
name: my-application
1 | Set haproxy.router.openshift.io/h1-adjust-case to true. |
You configure the HAProxy Ingress Controller to specify router compression globally for specific MIME types. You can use the mimeTypes
variable to define the formats of MIME types to which compression is applied. The types are: application, image, message, multipart, text, video, or a custom type prefaced by "X-". To see the full notation for MIME types and subtypes, see RFC1341.
Memory allocated for compression can affect the max connections. Additionally, compression of large buffers can cause latency, like heavy regex or long lists of regex. Not all MIME types benefit from compression, but HAProxy still uses resources to try to compress if instructed to. Generally, text formats, such as html, css, and js, formats benefit from compression, but formats that are already compressed, such as image, audio, and video, benefit little in exchange for the time and resources spent on compression. |
Configure the httpCompression
field for the Ingress Controller.
Use the following command to edit the IngressController
resource:
$ oc edit -n openshift-ingress-operator ingresscontrollers/default
Under spec
, set the httpCompression
policy field to mimeTypes
and specify a list of MIME types that should have compression applied:
apiVersion: operator.openshift.io/v1
kind: IngressController
metadata:
name: default
namespace: openshift-ingress-operator
spec:
httpCompression:
mimeTypes:
- "text/html"
- "text/css; charset=utf-8"
- "application/json"
...
You can expose the HAProxy router metrics by default in Prometheus format on the default stats port, 1936. The external metrics collection and aggregation systems such as Prometheus can access the HAProxy router metrics. You can view the HAProxy router metrics in a browser in the HTML and comma separated values (CSV) format.
You configured your firewall to access the default stats port, 1936.
Get the router pod name by running the following command:
$ oc get pods -n openshift-ingress
NAME READY STATUS RESTARTS AGE
router-default-76bfffb66c-46qwp 1/1 Running 0 11h
Get the router’s username and password, which the router pod stores in the /var/lib/haproxy/conf/metrics-auth/statsUsername
and /var/lib/haproxy/conf/metrics-auth/statsPassword
files:
Get the username by running the following command:
$ oc rsh <router_pod_name> cat metrics-auth/statsUsername
Get the password by running the following command:
$ oc rsh <router_pod_name> cat metrics-auth/statsPassword
Get the router IP and metrics certificates by running the following command:
$ oc describe pod <router_pod>
Get the raw statistics in Prometheus format by running the following command:
$ curl -u <user>:<password> http://<router_IP>:<stats_port>/metrics
Access the metrics securely by running the following command:
$ curl -u user:password https://<router_IP>:<stats_port>/metrics -k
Access the default stats port, 1936, by running the following command:
$ curl -u <user>:<password> http://<router_IP>:<stats_port>/metrics
...
# HELP haproxy_backend_connections_total Total number of connections.
# TYPE haproxy_backend_connections_total gauge
haproxy_backend_connections_total{backend="http",namespace="default",route="hello-route"} 0
haproxy_backend_connections_total{backend="http",namespace="default",route="hello-route-alt"} 0
haproxy_backend_connections_total{backend="http",namespace="default",route="hello-route01"} 0
...
# HELP haproxy_exporter_server_threshold Number of servers tracked and the current threshold value.
# TYPE haproxy_exporter_server_threshold gauge
haproxy_exporter_server_threshold{type="current"} 11
haproxy_exporter_server_threshold{type="limit"} 500
...
# HELP haproxy_frontend_bytes_in_total Current total of incoming bytes.
# TYPE haproxy_frontend_bytes_in_total gauge
haproxy_frontend_bytes_in_total{frontend="fe_no_sni"} 0
haproxy_frontend_bytes_in_total{frontend="fe_sni"} 0
haproxy_frontend_bytes_in_total{frontend="public"} 119070
...
# HELP haproxy_server_bytes_in_total Current total of incoming bytes.
# TYPE haproxy_server_bytes_in_total gauge
haproxy_server_bytes_in_total{namespace="",pod="",route="",server="fe_no_sni",service=""} 0
haproxy_server_bytes_in_total{namespace="",pod="",route="",server="fe_sni",service=""} 0
haproxy_server_bytes_in_total{namespace="default",pod="docker-registry-5-nk5fz",route="docker-registry",server="10.130.0.89:5000",service="docker-registry"} 0
haproxy_server_bytes_in_total{namespace="default",pod="hello-rc-vkjqx",route="hello-route",server="10.130.0.90:8080",service="hello-svc-1"} 0
...
Launch the stats window by entering the following URL in a browser:
http://<user>:<password>@<router_IP>:<stats_port>
Optional: Get the stats in CSV format by entering the following URL in a browser:
http://<user>:<password>@<router_ip>:1936/metrics;csv
As a cluster administrator, you can specify a custom error code response page for either 503, 404, or both error pages. The HAProxy router serves a 503 error page when the application pod is not running or a 404 error page when the requested URL does not exist. For example, if you customize the 503 error code response page, then the page is served when the application pod is not running, and the default 404 error code HTTP response page is served by the HAProxy router for an incorrect route or a non-existing route.
Custom error code response pages are specified in a config map then patched to the Ingress Controller. The config map keys have two available file names as follows:
error-page-503.http
and error-page-404.http
.
Custom HTTP error code response pages must follow the HAProxy HTTP error page configuration guidelines. Here is an example of the default OpenShift Dedicated HAProxy router http 503 error code response page. You can use the default content as a template for creating your own custom page.
By default, the HAProxy router serves only a 503 error page when the application is not running or when the route is incorrect or non-existent. This default behavior is the same as the behavior on OpenShift Dedicated 4.8 and earlier. If a config map for the customization of an HTTP error code response is not provided, and you are using a custom HTTP error code response page, the router serves a default 404 or 503 error code response page.
If you use the OpenShift Dedicated default 503 error code page as a template for your customizations, the headers in the file require an editor that can use CRLF line endings. |
Create a config map named my-custom-error-code-pages
in the openshift-config
namespace:
$ oc -n openshift-config create configmap my-custom-error-code-pages \
--from-file=error-page-503.http \
--from-file=error-page-404.http
If you do not specify the correct format for the custom error code response page, a router pod outage occurs. To resolve this outage, you must delete or correct the config map and delete the affected router pods so they can be recreated with the correct information. |
Patch the Ingress Controller to reference the my-custom-error-code-pages
config map by name:
$ oc patch -n openshift-ingress-operator ingresscontroller/default --patch '{"spec":{"httpErrorCodePages":{"name":"my-custom-error-code-pages"}}}' --type=merge
The Ingress Operator copies the my-custom-error-code-pages
config map from the openshift-config
namespace to the openshift-ingress
namespace. The Operator names the config map according to the pattern, <your_ingresscontroller_name>-errorpages
, in the openshift-ingress
namespace.
Display the copy:
$ oc get cm default-errorpages -n openshift-ingress
NAME DATA AGE default-errorpages 2 25s (1)
1 | The example config map name is default-errorpages because the default Ingress Controller custom resource (CR) was patched. |
Confirm that the config map containing the custom error response page mounts on the router volume where the config map key is the filename that has the custom HTTP error code response:
For 503 custom HTTP custom error code response:
$ oc -n openshift-ingress rsh <router_pod> cat /var/lib/haproxy/conf/error_code_pages/error-page-503.http
For 404 custom HTTP custom error code response:
$ oc -n openshift-ingress rsh <router_pod> cat /var/lib/haproxy/conf/error_code_pages/error-page-404.http
Verify your custom error code HTTP response:
Create a test project and application:
$ oc new-project test-ingress
$ oc new-app django-psql-example
For 503 custom http error code response:
Stop all the pods for the application.
Run the following curl command or visit the route hostname in the browser:
$ curl -vk <route_hostname>
For 404 custom http error code response:
Visit a non-existent route or an incorrect route.
Run the following curl command or visit the route hostname in the browser:
$ curl -vk <route_hostname>
Check if the errorfile
attribute is properly in the haproxy.config
file:
$ oc -n openshift-ingress rsh <router> cat /var/lib/haproxy/conf/haproxy.config | grep errorfile
A cluster administrator can set the maximum number of simultaneous connections for OpenShift router deployments. You can patch an existing Ingress Controller to increase the maximum number of connections.
The following assumes that you already created an Ingress Controller
Update the Ingress Controller to change the maximum number of connections for HAProxy:
$ oc -n openshift-ingress-operator patch ingresscontroller/default --type=merge -p '{"spec":{"tuningOptions": {"maxConnections": 7500}}}'
If you set the |
The following table details the components of the Ingress Operator and if Red Hat Site Reliability Engineers (SRE) maintains this component on OpenShift Dedicated clusters.
Ingress component | Managed by | Default configuration? |
---|---|---|
Scaling Ingress Controller |
SRE |
Yes |
Ingress Operator thread count |
SRE |
Yes |
Ingress Controller access logging |
SRE |
Yes |
Ingress Controller sharding |
SRE |
Yes |
Ingress Controller route admission policy |
SRE |
Yes |
Ingress Controller wildcard routes |
SRE |
Yes |
Ingress Controller X-Forwarded headers |
SRE |
Yes |
Ingress Controller route compression |
SRE |
Yes |