Documentation
Introduction
Configuration
- HTTPProxy Fundamentals
- Ingress v1 Support
- Virtual Hosts
- Inclusion and Delegation
- TLS Termination
- Upstream TLS
- Request Routing
- External Service Routing
- Request Rewriting
- CORS
- Websockets
- Upstream Health Checks
- Client Authorization
- TLS Delegation
- Rate Limiting
- Access logging
- Cookie Rewriting
- Overload Manager
- JWT Verification
- Annotations Reference
- Slow Start Mode
- API Reference
Deployment
- Deployment Options
- Contour Configuration
- Upgrading Contour
- Enabling TLS between Envoy and Contour
- Redeploy Envoy
Guides
- Deploying Contour on AWS with NLB
- AWS Network Load Balancer TLS Termination with Contour
- Deploying HTTPS services with Contour and cert-manager
- External Authorization Support
- FIPS 140-2 in Contour
- Using Gatekeeper with Contour
- Using Gateway API with Contour
- Global Rate Limiting
- Configuring ingress to gRPC services with Contour
- Health Checking
- How to enable structured JSON logging
- Creating a Contour-compatible kind cluster
- Collecting Metrics with Prometheus
- How to Configure PROXY Protocol v1/v2 Support
- Contour/Envoy Resource Limits
Troubleshooting
- Envoy Administration Access
- Contour Debug Logging
- Envoy Debug Logging
- Visualize the Contour Graph
- Show Contour xDS Resources
- Profiling Contour
- Contour Operator
- Envoy Container Stuck in Unready State
Resources
- Support Policy
- Compatibility Matrix
- Contour Deprecation Policy
- Release Process
- Frequently Asked Questions
- Tagging
Security
Contribute
HTTPProxy Fundamentals
The Ingress object was added to Kubernetes in version 1.1 to describe properties of a cluster-wide reverse HTTP proxy. Since that time, the Ingress API has remained relatively unchanged, and the need to express implementation-specific capabilities has inspired an explosion of annotations.
The goal of the HTTPProxy Custom Resource Definition (CRD) is to expand upon the functionality of the Ingress API to allow for a richer user experience as well addressing the limitations of the latter’s use in multi tenant environments.
Key HTTPProxy Benefits
- Safely supports multi-team Kubernetes clusters, with the ability to limit which Namespaces may configure virtual hosts and TLS credentials.
- Enables including of routing configuration for a path or domain from another HTTPProxy, possibly in another Namespace.
- Accepts multiple services within a single route and load balances traffic across them.
- Natively allows defining service weighting and load balancing strategy without annotations.
- Validation of HTTPProxy objects at creation time and status reporting for post-creation validity.
Ingress to HTTPProxy
A minimal Ingress object might look like:
# ingress.yaml
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: basic
spec:
rules:
- host: foo-basic.bar.com
http:
paths:
- backend:
service:
name: s1
port:
number: 80
pathType: Prefix
This Ingress object, named basic
, will route incoming HTTP traffic with a Host:
header for foo-basic.bar.com
to a Service named s1
on port 80
.
Implementing similar behavior using an HTTPProxy looks like this:
# httpproxy.yaml
apiVersion: projectcontour.io/v1
kind: HTTPProxy
metadata:
name: basic
spec:
virtualhost:
fqdn: foo-basic.bar.com
routes:
- conditions:
- prefix: /
services:
- name: s1
port: 80
Lines 1-5: As with all other Kubernetes objects, an HTTPProxy needs apiVersion, kind, and metadata fields.
Lines 7-8: The presence of the virtualhost
field indicates that this is a root HTTPProxy that is the top level entry point for this domain.
Interacting with HTTPProxies
As with all Kubernetes objects, you can use kubectl
to create, list, describe, edit, and delete HTTPProxy CRDs.
Creating an HTTPProxy:
$ kubectl create -f basic.httpproxy.yaml
httpproxy "basic" created
Listing HTTPProxies:
$ kubectl get httpproxy
NAME AGE
basic 24s
Describing HTTPProxy:
$ kubectl describe httpproxy basic
Name: basic
Namespace: default
Labels: <none>
API Version: projectcontour.io/v1
Kind: HTTPProxy
Metadata:
Cluster Name:
Creation Timestamp: 2019-07-05T19:26:54Z
Resource Version: 19373717
Self Link: /apis/projectcontour.io/v1/namespaces/default/httpproxy/basic
UID: 6036a9d7-8089-11e8-ab00-f80f4182762e
Spec:
Routes:
Conditions:
Prefix: /
Services:
Name: s1
Port: 80
Virtualhost:
Fqdn: foo-basic.bar.com
Events: <none>
Deleting HTTPProxies:
$ kubectl delete httpproxy basic
httpproxy "basic" deleted
Status Reporting
There are many misconfigurations that could cause an HTTPProxy or delegation to be invalid.
Contour will make its best effort to process even partially valid configuration and allow traffic to be served for the valid parts.
To aid users in resolving any issues, Contour updates a status
field in all HTTPProxy objects.
If an HTTPProxy object is valid, it will have a status property that looks like this:
status:
currentStatus: valid
description: valid HTTPProxy
If the HTTPProxy is invalid, the currentStatus
field will be invalid
and the description
field will provide a description of the issue.
As an example, if an HTTPProxy object has specified a negative value for weighting, the HTTPProxy status will be:
status:
currentStatus: invalid
description: "route '/foo': service 'home': weight must be greater than or equal to zero"
Some examples of invalid configurations that Contour provides statuses for:
- Negative weight provided in the route definition.
- Invalid port number provided for service.
- Prefix in parent does not match route in delegated route.
- Root HTTPProxy created in a namespace other than the allowed root namespaces.
- A given Route of an HTTPProxy both delegates to another HTTPProxy and has a list of services.
- Orphaned route.
- Delegation chain produces a cycle.
- Root HTTPProxy does not specify fqdn.
- Multiple prefixes cannot be specified on the same set of route conditions.
- Multiple header conditions of type “exact match” with the same header key.
- Contradictory header conditions on a route, e.g. a “contains” and “notcontains” condition for the same header and value.
Invalid configuration is ignored and will be not used in the ingress routing configuration. Envoy will respond with an error when HTTP request is received on route with invalid configuration on following cases:
502 Bad Gateway
response is sent when HTTPProxy has an include that refers to an HTTPProxy that does not exist.503 Service Unavailable
response is sent when HTTPProxy refers to a service that does not exist.
Example
Following example has two routes: the first one is valid, the second one refers to a service that does not exist.
apiVersion: projectcontour.io/v1
kind: HTTPProxy
metadata:
name: multiple-routes-with-a-missing-service
spec:
virtualhost:
fqdn: www.example.com
routes:
- conditions:
- prefix: /
services:
- name: valid-service
port: 80
- conditions:
- prefix: /subpage
services:
- name: service-that-does-not-exist
port: 80
The HTTPProxy
will have condition Valid=false
with detailed error message: Spec.Routes unresolved service reference: service "default/service-that-does-not-exist" not found
.
Requests received for http://www.example.com/
will be forwarded to valid-service
but requests received for http://www.example.com/subpage
will result in error 503 Service Unavailable
response from Envoy.
HTTPProxy API Specification
The full HTTPProxy specification is described in detail in the
API documentation.
There are a number of working examples of HTTPProxy objects in the
examples/example-workload
directory of the Contour Github repository.