- HTTPProxy Fundamentals
- Ingress v1 Support
- Virtual Hosts
- Inclusion and Delegation
- TLS Termination
- Upstream TLS
- Request Routing
- External Service Routing
- Request Rewriting
- 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 Options
- Contour Configuration
- Upgrading Contour
- Enabling TLS between Envoy and Contour
- Redeploy Envoy
- 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
- Envoy Administration Access
- Contour Debug Logging
- Envoy Debug Logging
- Visualize the Contour Graph
- Show Contour xDS Resources
- Profiling Contour
- Contour Operator
- Support Policy
- Compatibility Matrix
- Contour Deprecation Policy
- Release Process
- Frequently Asked Questions
HTTPProxy permits the splitting of a system’s configuration into separate HTTPProxy instances using inclusion.
Inclusion, as the name implies, allows for one HTTPProxy object to be included in another, optionally with some conditions inherited from the parent. Contour reads the inclusion tree and merges the included routes into one big object internally before rendering Envoy config. Importantly, the included HTTPProxy objects do not have to be in the same namespace.
Each tree of HTTPProxy starts with a root, the top level object of the configuration for a particular virtual host.
Each root HTTPProxy defines a
virtualhost key, which describes properties such as the fully qualified name of the virtual host, TLS configuration, etc.
HTTPProxies included from the root must not contain a virtualhost key. Root objects cannot include other roots either transitively or directly. This permits the owner of an HTTPProxy root to allow the inclusion of a portion of the route space inside a virtual host, and to allow that route space to be further subdivided with inclusions. Because the path is not necessarily used as the only key, the route space can be multi-dimensional.
Conditions and Inclusion
Like Routes, Inclusion may specify a set of conditions. These conditions are added to any conditions on the routes included. This process is recursive.
Conditions are sets of individual condition statements, for example
prefix: /blog is the condition that the matching request’s path must start with
When conditions are combined through inclusion Contour merges the conditions inherited via inclusion with any conditions specified on the route.
This may result in duplicates, for example two
prefix: conditions, or two header match conditions with the same name and value.
To resolve this Contour applies the following logic.
prefix:conditions are concatenated together in the order they were applied from the root object. For example the conditions,
prefix: /v1becomes a single
prefix: /api/v1conditions. Note: Multiple prefixes cannot be supplied on a single set of Route conditions.
- Proxies with repeated identical
header:conditions of type “exact match” (the same header keys exactly) are marked as “Invalid” since they create an un-routable configuration.
Inclusion is a top-level field in the HTTPProxy
It requires one field,
name, and has two optional fields:
namespace. This will assume the included HTTPProxy is in the same namespace if it’s not specified.
Inclusion Within the Same Namespace
HTTPProxies can include other HTTPProxy objects in the namespace by specifying the name of the object and its namespace in the top-level
includes is a list, and so it must use the YAML list construct.
In this example, the HTTPProxy
include-root has included the configuration for paths matching
/service2 from the HTTPProxy named
service2 in the same namespace as
It’s important to note that
service2 HTTPProxy has not defined a
virtualhost property as it is NOT a root HTTPProxy.
# httpproxy-inclusion-samenamespace.yaml apiVersion: projectcontour.io/v1 kind: HTTPProxy metadata: name: include-root namespace: default spec: virtualhost: fqdn: root.bar.com includes: # Includes the /service2 path from service2 in the same namespace - name: service2 namespace: default conditions: - prefix: /service2 routes: - conditions: - prefix: / services: - name: s1 port: 80 --- apiVersion: projectcontour.io/v1 kind: HTTPProxy metadata: name: service2 namespace: default spec: routes: - services: # matches /service2 - name: s2 port: 80 - conditions: - prefix: /blog # matches /service2/blog services: - name: blog port: 80
Inclusion Across Namespaces
Inclusion can also happen across Namespaces by specifying a
namespace in the
This is a particularly powerful paradigm for enabling multi-team Ingress management.
In this example, the root HTTPProxy has included configuration for paths matching
/blog to the
blog HTTPProxy object in the
# httpproxy-inclusion-across-namespaces.yaml --- apiVersion: projectcontour.io/v1 kind: HTTPProxy metadata: name: namespace-include-root namespace: default spec: virtualhost: fqdn: ns-root.bar.com includes: # delegate the subpath, `/blog` to the HTTPProxy object in the marketing namespace with the name `blog` - name: blog namespace: marketing conditions: - prefix: /blog routes: - services: - name: s1 port: 80 --- apiVersion: projectcontour.io/v1 kind: HTTPProxy metadata: name: blog namespace: marketing spec: routes: - services: - name: s2 port: 80
Orphaned HTTPProxy children
It is possible for HTTPProxy objects to exist that have not been delegated to by another HTTPProxy. These objects are considered “orphaned” and will be ignored by Contour in determining ingress configuration.