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Route configuration - Configuring Routes | Networking | Red Hat OpenShift Service on AWS
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Creating an HTTP-based route

A route allows you to host your application at a public URL. It can either be secure or unsecured, depending on the network security configuration of your application. An HTTP-based route is an unsecured route that uses the basic HTTP routing protocol and exposes a service on an unsecured application port.

The following procedure describes how to create a simple HTTP-based route to a web application, using the hello-openshift application as an example.

Prerequisites
  • You installed the OpenShift CLI (oc).

  • You are logged in as an administrator.

  • You have a web application that exposes a port and a TCP endpoint listening for traffic on the port.

Procedure
  1. Create a project called hello-openshift by running the following command:

    $ oc new-project hello-openshift
  2. Create a pod in the project by running the following command:

    $ oc create -f https://raw.githubusercontent.com/openshift/origin/master/examples/hello-openshift/hello-pod.json
  3. Create a service called hello-openshift by running the following command:

    $ oc expose pod/hello-openshift
  4. Create an unsecured route to the hello-openshift application by running the following command:

    $ oc expose svc hello-openshift
Verification
  • To verify that the route resource that you created, run the following command:

    $ oc get routes -o yaml <name of resource> (1)
    1 In this example, the route is named hello-openshift.
Sample YAML definition of the created unsecured route
apiVersion: route.openshift.io/v1
kind: Route
metadata:
  name: hello-openshift
spec:
  host: hello-openshift-hello-openshift.<Ingress_Domain> (1)
  port:
    targetPort: 8080 (2)
  to:
    kind: Service
    name: hello-openshift
1 <Ingress_Domain> is the default ingress domain name. The ingresses.config/cluster object is created during the installation and cannot be changed. If you want to specify a different domain, you can specify an alternative cluster domain using the appsDomain option.
2 targetPort is the target port on pods that is selected by the service that this route points to.

To display your default ingress domain, run the following command:

$ oc get ingresses.config/cluster -o jsonpath={.spec.domain}

Configuring route timeouts

You can configure the default timeouts for an existing route when you have services in need of a low timeout, which is required for Service Level Availability (SLA) purposes, or a high timeout, for cases with a slow back end.

Prerequisites
  • You need a deployed Ingress Controller on a running cluster.

Procedure
  1. Using the oc annotate command, add the timeout to the route:

    $ oc annotate route <route_name> \
        --overwrite haproxy.router.openshift.io/timeout=<timeout><time_unit> (1)
    1 Supported time units are microseconds (us), milliseconds (ms), seconds (s), minutes (m), hours (h), or days (d).

    The following example sets a timeout of two seconds on a route named myroute:

    $ oc annotate route myroute --overwrite haproxy.router.openshift.io/timeout=2s

HTTP Strict Transport Security

HTTP Strict Transport Security (HSTS) policy is a security enhancement, which signals to the browser client that only HTTPS traffic is allowed on the route host. HSTS also optimizes web traffic by signaling HTTPS transport is required, without using HTTP redirects. HSTS is useful for speeding up interactions with websites.

When HSTS policy is enforced, HSTS adds a Strict Transport Security header to HTTP and HTTPS responses from the site. You can use the insecureEdgeTerminationPolicy value in a route to redirect HTTP to HTTPS. When HSTS is enforced, the client changes all requests from the HTTP URL to HTTPS before the request is sent, eliminating the need for a redirect.

Cluster administrators can configure HSTS to do the following:

  • Enable HSTS per-route

  • Disable HSTS per-route

  • Enforce HSTS per-domain, for a set of domains, or use namespace labels in combination with domains

HSTS works only with secure routes, either edge-terminated or re-encrypt. The configuration is ineffective on HTTP or passthrough routes.

Enabling HTTP Strict Transport Security per-route

HTTP strict transport security (HSTS) is implemented in the haproxy template and applied to edge and re-encrypt routes that have the haproxy.router.openshift.io/hsts_header annotation.

Prerequisites
  • You are logged in to the cluster with a user with administrator privileges for the project.

  • You installed the OpenShift CLI (oc).

Procedure
  • To enable HSTS on a route, add the haproxy.router.openshift.io/hsts_header value to the edge-terminated or re-encrypt route. You can use the oc annotate tool to do this by running the following command:

    $ oc annotate route <route_name> -n <namespace> --overwrite=true "haproxy.router.openshift.io/hsts_header"="max-age=31536000;\ (1)
    includeSubDomains;preload"
    1 In this example, the maximum age is set to 31536000 ms, which is approximately 8.5 hours.

    In this example, the equal sign (=) is in quotes. This is required to properly execute the annotate command.

    Example route configured with an annotation
    apiVersion: route.openshift.io/v1
    kind: Route
    metadata:
      annotations:
        haproxy.router.openshift.io/hsts_header: max-age=31536000;includeSubDomains;preload   (1) (2) (3)
    ...
    spec:
      host: def.abc.com
      tls:
        termination: "reencrypt"
        ...
      wildcardPolicy: "Subdomain"
    1 Required. max-age measures the length of time, in seconds, that the HSTS policy is in effect. If set to 0, it negates the policy.
    2 Optional. When included, includeSubDomains tells the client that all subdomains of the host must have the same HSTS policy as the host.
    3 Optional. When max-age is greater than 0, you can add preload in haproxy.router.openshift.io/hsts_header to allow external services to include this site in their HSTS preload lists. For example, sites such as Google can construct a list of sites that have preload set. Browsers can then use these lists to determine which sites they can communicate with over HTTPS, even before they have interacted with the site. Without preload set, browsers must have interacted with the site over HTTPS, at least once, to get the header.

Disabling HTTP Strict Transport Security per-route

To disable HTTP strict transport security (HSTS) per-route, you can set the max-age value in the route annotation to 0.

Prerequisites
  • You are logged in to the cluster with a user with administrator privileges for the project.

  • You installed the OpenShift CLI (oc).

Procedure
  • To disable HSTS, set the max-age value in the route annotation to 0, by entering the following command:

    $ oc annotate route <route_name> -n <namespace> --overwrite=true "haproxy.router.openshift.io/hsts_header"="max-age=0"

    You can alternatively apply the following YAML to create the config map:

    Example of disabling HSTS per-route
    metadata:
      annotations:
        haproxy.router.openshift.io/hsts_header: max-age=0
  • To disable HSTS for every route in a namespace, enter the following command:

    $ oc annotate route --all -n <namespace> --overwrite=true "haproxy.router.openshift.io/hsts_header"="max-age=0"
Verification
  1. To query the annotation for all routes, enter the following command:

    $ oc get route  --all-namespaces -o go-template='{{range .items}}{{if .metadata.annotations}}{{$a := index .metadata.annotations "haproxy.router.openshift.io/hsts_header"}}{{$n := .metadata.name}}{{with $a}}Name: {{$n}} HSTS: {{$a}}{{"\n"}}{{else}}{{""}}{{end}}{{end}}{{end}}'
    Example output
    Name: routename HSTS: max-age=0

Using cookies to keep route statefulness

Red Hat OpenShift Service on AWS provides sticky sessions, which enables stateful application traffic by ensuring all traffic hits the same endpoint. However, if the endpoint pod terminates, whether through restart, scaling, or a change in configuration, this statefulness can disappear.

Red Hat OpenShift Service on AWS can use cookies to configure session persistence. The ingress controller selects an endpoint to handle any user requests, and creates a cookie for the session. The cookie is passed back in the response to the request and the user sends the cookie back with the next request in the session. The cookie tells the ingress controller which endpoint is handling the session, ensuring that client requests use the cookie so that they are routed to the same pod.

Cookies cannot be set on passthrough routes, because the HTTP traffic cannot be seen. Instead, a number is calculated based on the source IP address, which determines the backend.

If backends change, the traffic can be directed to the wrong server, making it less sticky. If you are using a load balancer, which hides source IP, the same number is set for all connections and traffic is sent to the same pod.

You can set a cookie name to overwrite the default, auto-generated one for the route. This allows the application receiving route traffic to know the cookie name. Deleting the cookie can force the next request to re-choose an endpoint. The result is that if a server is overloaded, that server tries to remove the requests from the client and redistribute them.

Procedure
  1. Annotate the route with the specified cookie name:

    $ oc annotate route <route_name> router.openshift.io/cookie_name="<cookie_name>"

    where:

    <route_name>

    Specifies the name of the route.

    <cookie_name>

    Specifies the name for the cookie.

    For example, to annotate the route my_route with the cookie name my_cookie:

    $ oc annotate route my_route router.openshift.io/cookie_name="my_cookie"
  2. Capture the route hostname in a variable:

    $ ROUTE_NAME=$(oc get route <route_name> -o jsonpath='{.spec.host}')

    where:

    <route_name>

    Specifies the name of the route.

  3. Save the cookie, and then access the route:

    $ curl $ROUTE_NAME -k -c /tmp/cookie_jar

    Use the cookie saved by the previous command when connecting to the route:

    $ curl $ROUTE_NAME -k -b /tmp/cookie_jar

Path-based routes

Path-based routes specify a path component that can be compared against a URL, which requires that the traffic for the route be HTTP based. Thus, multiple routes can be served using the same hostname, each with a different path. Routers should match routes based on the most specific path to the least.

The following table shows example routes and their accessibility:

Table 1. Route availability
Route When Compared to Accessible

www.example.com/test

www.example.com/test

Yes

www.example.com

No

www.example.com/test and www.example.com

www.example.com/test

Yes

www.example.com

Yes

www.example.com

www.example.com/text

Yes (Matched by the host, not the route)

www.example.com

Yes

An unsecured route with a path
apiVersion: route.openshift.io/v1
kind: Route
metadata:
  name: route-unsecured
spec:
  host: www.example.com
  path: "/test" (1)
  to:
    kind: Service
    name: service-name
1 The path is the only added attribute for a path-based route.

Path-based routing is not available when using passthrough TLS, as the router does not terminate TLS in that case and cannot read the contents of the request.

HTTP header configuration

Red Hat OpenShift Service on AWS 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 IngressController or Route CR, you cannot append them. If an HTTP header is set with a value, that value must be complete and not require appending in the future. In situations where it makes sense to append a header, such as the X-Forwarded-For header, use the spec.httpHeaders.forwardedHeaderPolicy field, instead of spec.httpHeaders.actions.

Order of precedence

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:

Example IngressController spec
apiVersion: 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:

Example Route spec
apiVersion: 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.

Special case headers

The following headers are either prevented entirely from being set or deleted, or allowed under specific circumstances:

Table 2. Special case header configuration options
Header name Configurable using IngressController spec Configurable using Route spec Reason for disallowment Configurable using another method

proxy

No

No

The proxy HTTP request header can be used to exploit vulnerable CGI applications by injecting the header value into the HTTP_PROXY environment variable. The proxy HTTP request header is also non-standard and prone to error during configuration.

No

host

No

Yes

When the host HTTP request header is set using the IngressController CR, haproxy can fail when looking up the correct route.

No

strict-transport-security

No

No

The strict-transport-security HTTP response header is already handled using route annotations and does not need a separate implementation.

Yes: the haproxy.router.openshift.io/hsts_header route annotation

cookie and set-cookie

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:

  • the haproxy.router.openshift.io/disable_cookie route annotation

  • the haproxy.router.openshift.io/cookie_name route annotation

Setting or deleting HTTP request and response headers in a route

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 enable a web application to serve content in alternate locations for specific routes if that content is written in multiple languages, even if there is a default global location specified by the Ingress Controller serving the routes.

The following procedure creates a route that sets the Content-Location HTTP request header so that the URL associated with the application, https://app.example.com, directs to the location https://app.example.com/lang/en-us. Directing application traffic to this location means that anyone using that specific route is accessing web content written in American English.

Prerequisites
  • You have installed the OpenShift CLI (oc).

  • You are logged into an Red Hat OpenShift Service on AWS cluster as a project administrator.

  • You have a web application that exposes a port and an HTTP or TLS endpoint listening for traffic on the port.

Procedure
  1. Create a route definition and save it in a file called app-example-route.yaml:

    YAML definition of the created route with HTTP header directives
    apiVersion: route.openshift.io/v1
    kind: Route
    # ...
    spec:
      host: app.example.com
      tls:
        termination: edge
      to:
        kind: Service
        name: app-example
      httpHeaders:
        actions: (1)
          response: (2)
          - name: Content-Location (3)
            action:
              type: Set (4)
              set:
                value: /lang/en-us (5)
    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 response 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, the value is set to the relative location of the content.
  2. Create a route to your existing web application using the newly created route definition:

    $ oc -n app-example create -f app-example-route.yaml

For HTTP request headers, the actions specified in the route definitions are executed after any actions performed on HTTP request headers in the Ingress Controller. This means that any values set for those request headers in a route will take precedence over the ones set in the Ingress Controller. For more information on the processing order of HTTP headers, see HTTP header configuration.

Route-specific annotations

The Ingress Controller can set the default options for all the routes it exposes. An individual route can override some of these defaults by providing specific configurations in its annotations. Red Hat does not support adding a route annotation to an operator-managed route.

To create a whitelist with multiple source IPs or subnets, use a space-delimited list. Any other delimiter type causes the list to be ignored without a warning or error message.

Table 3. Route annotations
Variable Description Environment variable used as default

haproxy.router.openshift.io/balance

Sets the load-balancing algorithm. Available options are random, source, roundrobin, and leastconn. The default value is source for TLS passthrough routes. For all other routes, the default is random.

ROUTER_TCP_BALANCE_SCHEME for passthrough routes. Otherwise, use ROUTER_LOAD_BALANCE_ALGORITHM.

haproxy.router.openshift.io/disable_cookies

Disables the use of cookies to track related connections. If set to 'true' or 'TRUE', the balance algorithm is used to choose which back-end serves connections for each incoming HTTP request.

router.openshift.io/cookie_name

Specifies an optional cookie to use for this route. The name must consist of any combination of upper and lower case letters, digits, "_", and "-". The default is the hashed internal key name for the route.

haproxy.router.openshift.io/pod-concurrent-connections

Sets the maximum number of connections that are allowed to a backing pod from a router.
Note: If there are multiple pods, each can have this many connections. If you have multiple routers, there is no coordination among them, each may connect this many times. If not set, or set to 0, there is no limit.

haproxy.router.openshift.io/rate-limit-connections

Setting 'true' or 'TRUE' enables rate limiting functionality which is implemented through stick-tables on the specific backend per route.
Note: Using this annotation provides basic protection against denial-of-service attacks.

haproxy.router.openshift.io/rate-limit-connections.concurrent-tcp

Limits the number of concurrent TCP connections made through the same source IP address. It accepts a numeric value.
Note: Using this annotation provides basic protection against denial-of-service attacks.

haproxy.router.openshift.io/rate-limit-connections.rate-http

Limits the rate at which a client with the same source IP address can make HTTP requests. It accepts a numeric value.
Note: Using this annotation provides basic protection against denial-of-service attacks.

haproxy.router.openshift.io/rate-limit-connections.rate-tcp

Limits the rate at which a client with the same source IP address can make TCP connections. It accepts a numeric value.
Note: Using this annotation provides basic protection against denial-of-service attacks.

haproxy.router.openshift.io/timeout

Sets a server-side timeout for the route. (TimeUnits)

ROUTER_DEFAULT_SERVER_TIMEOUT

haproxy.router.openshift.io/timeout-tunnel

This timeout applies to a tunnel connection, for example, WebSocket over cleartext, edge, reencrypt, or passthrough routes. With cleartext, edge, or reencrypt route types, this annotation is applied as a timeout tunnel with the existing timeout value. For the passthrough route types, the annotation takes precedence over any existing timeout value set.

ROUTER_DEFAULT_TUNNEL_TIMEOUT

ingresses.config/cluster ingress.operator.openshift.io/hard-stop-after

You can set either an IngressController or the ingress config . This annotation redeploys the router and configures the HA proxy to emit the haproxy hard-stop-after global option, which defines the maximum time allowed to perform a clean soft-stop.

ROUTER_HARD_STOP_AFTER

router.openshift.io/haproxy.health.check.interval

Sets the interval for the back-end health checks. (TimeUnits)

ROUTER_BACKEND_CHECK_INTERVAL

haproxy.router.openshift.io/ip_whitelist

Sets an allowlist for the route. The allowlist is a space-separated list of IP addresses and CIDR ranges for the approved source addresses. Requests from IP addresses that are not in the allowlist are dropped.

The maximum number of IP addresses and CIDR ranges directly visible in the haproxy.config file is 61. [1]

haproxy.router.openshift.io/hsts_header

Sets a Strict-Transport-Security header for the edge terminated or re-encrypt route.

haproxy.router.openshift.io/rewrite-target

Sets the rewrite path of the request on the backend.

router.openshift.io/cookie-same-site

Sets a value to restrict cookies. The values are:

Lax: the browser does not send cookies on cross-site requests, but does send cookies when users navigate to the origin site from an external site. This is the default browser behavior when the SameSite value is not specified.

Strict: the browser sends cookies only for same-site requests.

None: the browser sends cookies for both cross-site and same-site requests.

This value is applicable to re-encrypt and edge routes only. For more information, see the SameSite cookies documentation.

haproxy.router.openshift.io/set-forwarded-headers

Sets the policy for handling the Forwarded and X-Forwarded-For HTTP headers per route. The values are:

append: appends the header, preserving any existing header. This is the default value.

replace: sets the header, removing any existing header.

never: never sets the header, but preserves any existing header.

if-none: sets the header if it is not already set.

ROUTER_SET_FORWARDED_HEADERS

  1. If the number of IP addresses and CIDR ranges in an allowlist exceeds 61, they are written into a separate file that is then referenced from haproxy.config. This file is stored in the var/lib/haproxy/router/whitelists folder.

    To ensure that the addresses are written to the allowlist, check that the full list of CIDR ranges are listed in the Ingress Controller configuration file. The etcd object size limit restricts how large a route annotation can be. Because of this, it creates a threshold for the maximum number of IP addresses and CIDR ranges that you can include in an allowlist.

Environment variables cannot be edited.

Router timeout variables

TimeUnits are represented by a number followed by the unit: us *(microseconds), ms (milliseconds, default), s (seconds), m (minutes), h *(hours), d (days).

The regular expression is: [1-9][0-9]*(us\|ms\|s\|m\|h\|d).

Variable Default Description

ROUTER_BACKEND_CHECK_INTERVAL

5000ms

Length of time between subsequent liveness checks on back ends.

ROUTER_CLIENT_FIN_TIMEOUT

1s

Controls the TCP FIN timeout period for the client connecting to the route. If the FIN sent to close the connection does not answer within the given time, haproxy closes the connection. This is harmless if set to a low value and uses fewer resources on the router.

ROUTER_DEFAULT_CLIENT_TIMEOUT

30s

Length of time that a client has to acknowledge or send data.

ROUTER_DEFAULT_CONNECT_TIMEOUT

5s

The maximum connection time.

ROUTER_DEFAULT_SERVER_FIN_TIMEOUT

1s

Controls the TCP FIN timeout from the router to the pod backing the route.

ROUTER_DEFAULT_SERVER_TIMEOUT

30s

Length of time that a server has to acknowledge or send data.

ROUTER_DEFAULT_TUNNEL_TIMEOUT

1h

Length of time for TCP or WebSocket connections to remain open. This timeout period resets whenever haproxy reloads.

ROUTER_SLOWLORIS_HTTP_KEEPALIVE

300s

Set the maximum time to wait for a new HTTP request to appear. If this is set too low, it can cause problems with browsers and applications not expecting a small keepalive value.

Some effective timeout values can be the sum of certain variables, rather than the specific expected timeout. For example, ROUTER_SLOWLORIS_HTTP_KEEPALIVE adjusts timeout http-keep-alive. It is set to 300s by default, but haproxy also waits on tcp-request inspect-delay, which is set to 5s. In this case, the overall timeout would be 300s plus 5s.

ROUTER_SLOWLORIS_TIMEOUT

10s

Length of time the transmission of an HTTP request can take.

RELOAD_INTERVAL

5s

Allows the minimum frequency for the router to reload and accept new changes.

ROUTER_METRICS_haproxy_TIMEOUT

5s

Timeout for the gathering of haproxy metrics.

A route setting custom timeout
apiVersion: route.openshift.io/v1
kind: Route
metadata:
  annotations:
    haproxy.router.openshift.io/timeout: 5500ms (1)
...
1 Specifies the new timeout with haproxy supported units (us, ms, s, m, h, d). If the unit is not provided, ms is the default.

Setting a server-side timeout value for passthrough routes too low can cause WebSocket connections to timeout frequently on that route.

A route that allows only one specific IP address
metadata:
  annotations:
    haproxy.router.openshift.io/ip_whitelist: 192.168.1.10
A route that allows several IP addresses
metadata:
  annotations:
    haproxy.router.openshift.io/ip_whitelist: 192.168.1.10 192.168.1.11 192.168.1.12
A route that allows an IP address CIDR network
metadata:
  annotations:
    haproxy.router.openshift.io/ip_whitelist: 192.168.1.0/24
A route that allows both IP an address and IP address CIDR networks
metadata:
  annotations:
    haproxy.router.openshift.io/ip_whitelist: 180.5.61.153 192.168.1.0/24 10.0.0.0/8
A route specifying a rewrite target
apiVersion: route.openshift.io/v1
kind: Route
metadata:
  annotations:
    haproxy.router.openshift.io/rewrite-target: / (1)
...
1 Sets / as rewrite path of the request on the backend.

Setting the haproxy.router.openshift.io/rewrite-target annotation on a route specifies that the Ingress Controller should rewrite paths in HTTP requests using this route before forwarding the requests to the backend application. The part of the request path that matches the path specified in spec.path is replaced with the rewrite target specified in the annotation.

The following table provides examples of the path rewriting behavior for various combinations of spec.path, request path, and rewrite target.

Table 4. rewrite-target examples
Route.spec.path Request path Rewrite target Forwarded request path

/foo

/foo

/

/

/foo

/foo/

/

/

/foo

/foo/bar

/

/bar

/foo

/foo/bar/

/

/bar/

/foo

/foo

/bar

/bar

/foo

/foo/

/bar

/bar/

/foo

/foo/bar

/baz

/baz/bar

/foo

/foo/bar/

/baz

/baz/bar/

/foo/

/foo

/

N/A (request path does not match route path)

/foo/

/foo/

/

/

/foo/

/foo/bar

/

/bar

Certain special characters in haproxy.router.openshift.io/rewrite-target require special handling because they must be escaped properly. Refer to the following table to understand how these characters are handled.

Table 5. Special character handling
For character Use characters Notes

#

\#

Avoid # because it terminates the rewrite expression

%

% or %%

Avoid odd sequences such as %%%

\’

Avoid ‘ because it is ignored

All other valid URL characters can be used without escaping.

Creating a route using the default certificate through an Ingress object

If you create an Ingress object without specifying any TLS configuration, Red Hat OpenShift Service on AWS generates an insecure route. To create an Ingress object that generates a secure, edge-terminated route using the default ingress certificate, you can specify an empty TLS configuration as follows.

Prerequisites
  • You have a service that you want to expose.

  • You have access to the OpenShift CLI (oc).

Procedure
  1. Create a YAML file for the Ingress object. In this example, the file is called example-ingress.yaml:

    YAML definition of an Ingress object
    apiVersion: networking.k8s.io/v1
    kind: Ingress
    metadata:
      name: frontend
      ...
    spec:
      rules:
        ...
      tls:
      - {} (1)
    1 Use this exact syntax to specify TLS without specifying a custom certificate.
  2. Create the Ingress object by running the following command:

    $ oc create -f example-ingress.yaml
Verification
  • Verify that Red Hat OpenShift Service on AWS has created the expected route for the Ingress object by running the following command:

    $ oc get routes -o yaml
    Example output
    apiVersion: v1
    items:
    - apiVersion: route.openshift.io/v1
      kind: Route
      metadata:
        name: frontend-j9sdd (1)
        ...
      spec:
      ...
        tls: (2)
          insecureEdgeTerminationPolicy: Redirect
          termination: edge (3)
      ...
    1 The name of the route includes the name of the Ingress object followed by a random suffix.
    2 In order to use the default certificate, the route should not specify spec.certificate.
    3 The route should specify the edge termination policy.

Creating a route using the destination CA certificate in the Ingress annotation

The route.openshift.io/destination-ca-certificate-secret annotation can be used on an Ingress object to define a route with a custom destination CA certificate.

Prerequisites
  • You may have a certificate/key pair in PEM-encoded files, where the certificate is valid for the route host.

  • You may have a separate CA certificate in a PEM-encoded file that completes the certificate chain.

  • You must have a separate destination CA certificate in a PEM-encoded file.

  • You must have a service that you want to expose.

Procedure
  1. Add the route.openshift.io/destination-ca-certificate-secret to the Ingress annotations:

    apiVersion: networking.k8s.io/v1
    kind: Ingress
    metadata:
      name: frontend
      annotations:
        route.openshift.io/termination: "reencrypt"
        route.openshift.io/destination-ca-certificate-secret: secret-ca-cert (1)
    ...
    1 The annotation references a kubernetes secret.
  2. The secret referenced in this annotation will be inserted into the generated route.

    Example output
    apiVersion: route.openshift.io/v1
    kind: Route
    metadata:
      name: frontend
      annotations:
        route.openshift.io/termination: reencrypt
        route.openshift.io/destination-ca-certificate-secret: secret-ca-cert
    spec:
    ...
      tls:
        insecureEdgeTerminationPolicy: Redirect
        termination: reencrypt
        destinationCACertificate: |
          -----BEGIN CERTIFICATE-----
          [...]
          -----END CERTIFICATE-----
    ...