Ambient Mesh Architecture
This page is under construction.
Differences from sidecar architecture
In ambient mode, workloads can fall into 3 categories:
- Uncaptured: this is a standard pod without any mesh features enabled.
- Captured: this is a pod that has traffic intercepted by ztunnel. Pods can be captured by setting the
istio.io/dataplane-mode=ambientlabel on a namespace.
- Waypoint enabled: this is a pod that is “Captured” and has a waypoint proxy deployed.
A waypoint will, by default, apply to all pods in the same namespace.
It can optionally be set to apply to only a specific service account with the
istio.io/for-service-accountannotation on the
Gateway. If there is both a namespace waypoint and service account waypoint, the service account waypoint takes precedence.
Depending on which category a workload is in, the request path will be different.
When a captured pod makes an outbound request, it will be transparently redirected to ztunnel which will determine where and how to forward the request.
In general, the traffic routing behaves just like Kubernetes default traffic routing;
requests to a
Service will be sent to an endpoint within the
Service while requests directly to a
Pod IP will go directly to that IP.
However, depending on the destination’s capabilities, different behavior will occur. If the destination is also captured, or otherwise has Istio proxy capabilities (such as a sidecar), the request will be upgraded to an encrypted HBONE tunnel. If the destination has a waypoint proxy, in addition to being upgraded to HBONE, the request will instead be forwarded to that waypoint.
Note that in the case of a request to a
Service, a specific endpoint will be selected to determine if it has a waypoint.
However, if it has a waypoint, the request will be sent with a target destination of the
Service, not the selected endpoint.
This allows the waypoint to apply service-oriented policies to the traffic.
In the rare case that a
Service has a mix of waypoint enabled and non-enabled endpoints, some requests would be sent to a waypoint while other requests to the same service would not.
When a captured pod receives an inbound request, it will be transparently redirected to ztunnel. When ztunnel receives the request, it will apply Authorization Policies and forward the request only if the request meets the policies.
A pod can receive HBONE traffic or plaintext traffic. By default, both will be accepted by ztunnel. Because plaintext requests will have no peer identity when Authorization Policies are evaluated, a user can set a policy requiring an identity (either any identity, or a specific one) to block all plaintext traffic.
When the destination is waypoint enabled, all requests must go through the waypoint where policy is enforced. The ztunnel will make sure this occurs. However, there is an edge case: a well behaving HBONE client (such as another ztunnel or Istio sidecar) would know to send to the waypoint, but other clients (such as a workload outside of the mesh) likely would not know anything about waypoint proxies and send requests directly. When these direct calls are made, the ztunnel will “hairpin” the request to its own waypoint to ensure policies are properly enforced.
A waypoint exclusively receives HBONE requests.
Upon receiving a request, the waypoint will ensure it is targeting either a
Pod that it manages or a
Service that contains a
Pod it manages.
For either type of request, the waypoint will enforce policies (such as
Telemetry, etc) before forwarding.
For direct requests to a
Pod, the requests are simply forwarded directly after policy is applied.
For requests to a
Service, the waypoint will also apply routing and load balancing.
By default, a
Service will simply route to itself, load balancing across its endpoints.
This can be overridden with Routes for that
For example, the below policy will ensure that requests to the
echo service are forwarded to
apiVersion: gateway.networking.k8s.io/v1beta1 kind: HTTPRoute metadata: name: echo spec: parentRefs: - kind: Service name: echo rules: - backendRefs: - name: echo-v1 port: 80