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709 lines
38 KiB
709 lines
38 KiB
.. _xds_protocol: |
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xDS REST and gRPC protocol |
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========================== |
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Envoy discovers its various dynamic resources via the filesystem or by |
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querying one or more management servers. Collectively, these discovery |
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services and their corresponding APIs are referred to as *xDS*. |
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Resources are requested via *subscriptions*, by specifying a filesystem |
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path to watch, initiating gRPC streams, or polling a REST-JSON URL. The |
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latter two methods involve sending requests with a :ref:`DiscoveryRequest <envoy_api_msg_DiscoveryRequest>` |
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proto payload. Resources are delivered in a |
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:ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>` |
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proto payload in all methods. We discuss each type of subscription |
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below. |
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Filesystem subscriptions |
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------------------------ |
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The simplest approach to delivering dynamic configuration is to place it |
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at a well known path specified in the :ref:`ConfigSource <envoy_api_msg_core.ConfigSource>`. |
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Envoy will use `inotify` (`kqueue` on macOS) to monitor the file for |
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changes and parse the |
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:ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>` proto in the file on update. |
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Binary protobufs, JSON, YAML and proto text are supported formats for |
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the |
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:ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>`. |
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There is no mechanism available for filesystem subscriptions to ACK/NACK |
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updates beyond stats counters and logs. The last valid configuration for |
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an xDS API will continue to apply if an configuration update rejection |
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occurs. |
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.. _xds_protocol_streaming_grpc_subscriptions: |
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Streaming gRPC subscriptions |
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---------------------------- |
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Resource Types |
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~~~~~~~~~~~~~~ |
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Every configuration resource in the xDS API has a type associated with it. The following types are |
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supported: |
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- :ref:`envoy.api.v2.Listener <envoy_api_msg_Listener>` |
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- :ref:`envoy.api.v2.RouteConfiguration <envoy_api_msg_RouteConfiguration>` |
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- :ref:`envoy.api.v2.ScopedRouteConfiguration <envoy_api_msg_ScopedRouteConfiguration>` |
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- :ref:`envoy.api.v2.route.VirtualHost <envoy_api_msg_route.VirtualHost>` |
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- :ref:`envoy.api.v2.Cluster <envoy_api_msg_Cluster>` |
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- :ref:`envoy.api.v2.ClusterLoadAssignment <envoy_api_msg_ClusterLoadAssignment>` |
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- :ref:`envoy.api.v2.Auth.Secret <envoy_api_msg_Auth.Secret>` |
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- :ref:`envoy.service.discovery.v2.Runtime <envoy_api_msg_service.discovery.v2.Runtime>` |
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The concept of `type URLs <https://developers.google.com/protocol-buffers/docs/proto3#any>`_ |
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appears below, and takes the form `type.googleapis.com/<resource type>` -- e.g., |
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`type.googleapis.com/envoy.api.v2.Cluster` for a `Cluster` resource. In various requests from |
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Envoy and responses by the management server, the resource type URL is stated. |
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API flow |
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~~~~~~~~ |
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For typical HTTP routing scenarios, the core resource types for the client's configuration are |
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`Listener`, `RouteConfiguration`, `Cluster`, and `ClusterLoadAssignment`. Each `Listener` resource |
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may point to a `RouteConfiguration` resource, which may point to one or more `Cluster` resources, |
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and each Cluster` resource may point to a `ClusterLoadAssignment` resource. |
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Envoy fetches all `Listener` and `Cluster` resources at startup. It then fetches whatever |
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`RouteConfiguration` and `ClusterLoadAssignment` resources that are required by the `Listener` and |
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`Cluster` resources. In effect, every `Listener` or `Cluster` resource is a root to part of Envoy's |
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configuration tree. |
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A non-proxy client such as gRPC might start by fetching only the specific `Listener` resources |
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that it is interested in. It then fetches the `RouteConfiguration` resources required by those |
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`Listener` resources, followed by whichever `Cluster` resources are required by those |
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`RouteConfiguration` resources, followed by the `ClusterLoadAssignment` resources required |
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by the `Cluster` resources. In effect, the original `Listener` resources are the roots to |
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the client's configuration tree. |
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Variants of the xDS Transport Protocol |
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
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Four Variants |
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^^^^^^^^^^^^^ |
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There are four variants of the xDS transport protocol used via streaming gRPC, which cover all |
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combinations of two dimensions. |
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The first dimension is State of the World (SotW) vs. incremental. The SotW approach was the |
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original mechanism used by xDS, in which the client must specify all resource names it is |
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interested in with each request (except when making a wildcard request in LDS/CDS), and the server |
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must return all resources the client has subscribed to in each request (in LDS/CDS). This means |
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that if the client is already subscribing to 99 resources and wants to add an additional one, it |
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must send a request with all 100 resource names, rather than just the one new one. And the server |
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must then respond by sending all 100 resources, even if the 99 that were already subscribed to have |
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not changed (in LDS/CDS). This mechanism can be a scalability limitation, which is why the |
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incremental protocol variant was introduced. The incremental approach allows both the client and |
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server to indicate only deltas relative to their previous state -- i.e., the client can say that |
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it wants to add or remove its subscription to a particular resource name without resending those |
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that have not changed, and the server can send updates only for those resources that have changed. |
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The incremental protocol also provides a mechanism for lazy loading of resources. For details on |
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the incremental protocol, see :ref:`Incremental xDS <xds_protocol_delta>` below. |
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The second dimension is using a separate gRPC stream for each resource type vs. aggregating all |
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resource types onto a single gRPC stream. The former approach was the original mechanism used by |
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xDS, and it offers an eventual consistency model. The latter approach was added for environments |
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in which explicit control of sequencing is required. For details, see :ref:`Eventual consistency |
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considerations <xds_protocol_eventual_consistency_considerations>` below. |
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So, the four variants of the xDS transport protocol are: |
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1. State of the World (Basic xDS): SotW, separate gRPC stream for each resource type |
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2. Incremental xDS: incremental, separate gRPC stream for each resource type |
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3. Aggregated Discovery Service (ADS): SotW, aggregate stream for all resource types |
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4. Incremental ADS: incremental, aggregate stream for all resource types |
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RPC Services and Methods for Each Variant |
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
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For the non-aggregated protocol variants, there is a separate RPC service for each resource type. |
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Each of these RPC services can provide a method for each of the SotW and Incremental protocol |
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variants. Here are the RPC services and methods for each resource type: |
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- Listener: Listener Discovery Service (LDS) |
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- SotW: ListenerDiscoveryService.StreamListeners |
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- Incremental: ListenerDiscoveryService.DeltaListeners |
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- RouteConfiguration: Route Discovery Service (RDS) |
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- SotW: RouteDiscoveryService.StreamRoutes |
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- Incremental: RouteDiscoveryService.DeltaRoutes |
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- ScopedRouteConfiguration: Scoped Route Discovery Service (SRDS) |
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- SotW: ScopedRouteDiscoveryService.StreamScopedRoutes |
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- Incremental: ScopedRouteDiscoveryService.DeltaScopedRoutes |
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- VirtualHost: Virtual Host Discovery Service (VHDS) |
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- SotW: N/A |
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- Incremental: VirtualHostDiscoveryService.DeltaVirtualHosts |
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- Cluster: Cluster Discovery Service (CDS) |
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- SotW: ClusterDiscoveryService.StreamClusters |
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- Incremental: ClusterDiscoveryService.DeltaClusters |
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- ClusterLoadAssignment: Endpoint Discovery Service (EDS) |
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- SotW: EndpointDiscoveryService.StreamEndpoints |
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- Incremental: EndpointDiscoveryService.DeltaEndpoints |
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- Secret: Secret Discovery Service (SDS) |
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- SotW: SecretDiscoveryService.StreamSecrets |
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- Incremental: SecretDiscoveryService.DeltaSecrets |
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- Runtime: Runtime Discovery Service (RTDS) |
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- SotW: RuntimeDiscoveryService.StreamRuntime |
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- Incremental: RuntimeDiscoveryService.DeltaRuntime |
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In the aggregated protocol variants, all resource types are multiplexed on a single gRPC stream, |
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where each resource type is treated as a separate logical stream within the aggregated stream. |
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In effect, it simply combines all of the above separate APIs into a single stream by treating |
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requests and responses for each resource type as a separate sub-stream on the single aggregated |
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stream. The RPC service and methods for the aggregated protocol variants are: |
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- SotW: AggregatedDiscoveryService.StreamAggregatedResources |
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- Incremental: AggregatedDiscoveryService.DeltaAggregatedResources |
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For all of the SotW methods, the request type is :ref:`DiscoveryRequest |
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<envoy_api_msg_DiscoveryRequest>` and the response type is :ref:`DiscoveryResponse |
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<envoy_api_msg_DiscoveryResponse>`. |
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For all of the incremental methods, the request type is :ref:`DeltaDiscoveryRequest |
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<envoy_api_msg_DeltaDiscoveryRequest>` and the response type is :ref:`DeltaDiscoveryResponse |
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<envoy_api_msg_DeltaDiscoveryResponse>`. |
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Configuring Which Variant to Use |
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
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In the xDS API, the :ref:`ConfigSource <envoy_api_msg_core.ConfigSource>` message indicates how to |
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obtain resources of a particular type. If the :ref:`ConfigSource <envoy_api_msg_core.ConfigSource>` |
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contains a gRPC :ref:`ApiConfigSource <envoy_api_msg_core.ApiConfigSource>`, it points to an |
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upstream cluster for the management server; this will initiate an independent bidirectional gRPC |
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stream for each xDS resource type, potentially to distinct management servers. If the |
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:ref:`ConfigSource <envoy_api_msg_core.ConfigSource>` contains a :ref:`AggregatedConfigSource |
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<envoy_api_msg_core.AggregatedConfigSource>`, it tells the client to use :ref:`ADS |
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<xds_protocol_ads>`. |
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Currently, the client is expected to be given some local configuration that tells it how to obtain |
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the :ref:`Listener <envoy_api_msg_Listener>` and :ref:`Cluster <envoy_api_msg_Cluster>` resources. |
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:ref:`Listener <envoy_api_msg_Listener>` resources may include a |
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:ref:`ConfigSource <envoy_api_msg_core.ConfigSource>` that indicates how the |
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:ref:`RouteConfiguration <envoy_api_msg_RouteConfiguration>` resources are obtained, and |
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:ref:`Cluster <envoy_api_msg_Cluster>` resources may include a |
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:ref:`ConfigSource <envoy_api_msg_core.ConfigSource>` that indicates how the |
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:ref:`ClusterLoadAssignment <envoy_api_msg_ClusterLoadAssignment>` resources are obtained. |
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Client Configuration |
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"""""""""""""""""""" |
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In Envoy, the bootstrap file contains two :ref:`ConfigSource <envoy_api_msg_core.ConfigSource>` |
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messages, one indicating how :ref:`Listener <envoy_api_msg_Listener>` resources are obtained and |
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another indicating how :ref:`Cluster <envoy_api_msg_Cluster>` resources are obtained. It also |
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contains a separate :ref:`ApiConfigSource <envoy_api_msg_core.ApiConfigSource>` message indicating |
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how to contact the ADS server, which will be used whenever a :ref:`ConfigSource |
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<envoy_api_msg_core.ConfigSource>` message (either in the bootstrap file or in a :ref:`Listener |
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<envoy_api_msg_Listener>` or :ref:`Cluster <envoy_api_msg_Cluster>` resource obtained from a |
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management server) contains an :ref:`AggregatedConfigSource |
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<envoy_api_msg_core.AggregatedConfigSource>` message. |
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In a gRPC client that uses xDS, only ADS is supported, and the bootstrap file contains the name of |
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the ADS server, which will be used for all resources. The :ref:`ConfigSource |
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<envoy_api_msg_core.ConfigSource>` messages in the :ref:`Listener <envoy_api_msg_Listener>` and |
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:ref:`Cluster <envoy_api_msg_Cluster>` resources must contain :ref:`AggregatedConfigSource |
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<envoy_api_msg_core.AggregatedConfigSource>` messages. |
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The xDS Protocol |
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~~~~~~~~~~~~~~~~ |
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ACK/NACK and versioning |
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^^^^^^^^^^^^^^^^^^^^^^^ |
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Each xDS stream begins with a |
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:ref:`DiscoveryRequest <envoy_api_msg_DiscoveryRequest>` from the client, specifying |
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the list of resources to subscribe to, the type URL corresponding to the |
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subscribed resources, the node identifier and an empty :ref:`version_info <envoy_api_field_DiscoveryRequest.version_info>`. |
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An example EDS request might be: |
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.. code:: yaml |
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version_info: |
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node: { id: envoy } |
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resource_names: |
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- foo |
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- bar |
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type_url: type.googleapis.com/envoy.api.v2.ClusterLoadAssignment |
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response_nonce: |
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The management server may reply either immediately or when the requested |
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resources are available with a :ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>`, e.g.: |
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.. code:: yaml |
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version_info: X |
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resources: |
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- foo ClusterLoadAssignment proto encoding |
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- bar ClusterLoadAssignment proto encoding |
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type_url: type.googleapis.com/envoy.api.v2.ClusterLoadAssignment |
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nonce: A |
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After processing the :ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>`, Envoy will send a new |
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request on the stream, specifying the last version successfully applied |
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and the nonce provided by the management server. If the update was |
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successfully applied, the :ref:`version_info <envoy_api_field_DiscoveryResponse.version_info>` will be **X**, as indicated |
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in the sequence diagram: |
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.. figure:: diagrams/simple-ack.svg |
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:alt: Version update after ACK |
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In this sequence diagram, and below, the following format is used to abbreviate messages: |
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- *DiscoveryRequest*: (V=version_info,R=resource_names,N=response_nonce,T=type_url) |
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- *DiscoveryResponse*: (V=version_info,R=resources,N=nonce,T=type_url) |
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The version provides Envoy and the management server a shared notion of |
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the currently applied configuration, as well as a mechanism to ACK/NACK |
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configuration updates. If Envoy had instead rejected configuration |
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update **X**, it would reply with :ref:`error_detail <envoy_api_field_DiscoveryRequest.error_detail>` |
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populated and its previous version, which in this case was the empty |
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initial version. The :ref:`error_detail <envoy_api_field_DiscoveryRequest.error_detail>` has more details around the exact |
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error message populated in the message field: |
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.. figure:: diagrams/simple-nack.svg |
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:alt: No version update after NACK |
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Later, an API update may succeed at a new version **Y**: |
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.. figure:: diagrams/later-ack.svg |
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:alt: ACK after NACK |
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Each stream has its own notion of versioning, there is no shared |
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versioning across resource types. When ADS is not used, even each |
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resource of a given resource type may have a distinct version, since the |
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Envoy API allows distinct EDS/RDS resources to point at different :ref:`ConfigSources <envoy_api_msg_core.ConfigSource>`. |
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Only the first request on a stream is guaranteed to carry the node identifier. |
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The subsequent discovery requests on the same stream may carry an empty node |
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identifier. This holds true regardless of the acceptance of the discovery |
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responses on the same stream. The node identifier should always be identical if |
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present more than once on the stream. It is sufficient to only check the first |
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message for the node identifier as a result. |
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.. _xds_protocol_resource_update: |
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When to send an update |
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^^^^^^^^^^^^^^^^^^^^^^ |
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The management server should only send updates to the Envoy client when |
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the resources in the :ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>` have changed. Envoy replies |
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to any :ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>` with a :ref:`DiscoveryRequest <envoy_api_msg_DiscoveryRequest>` containing the |
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ACK/NACK immediately after it has been either accepted or rejected. If |
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the management server provides the same set of resources rather than |
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waiting for a change to occur, it will cause needless work on both the client and the management |
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server, which could have a severe performance impact. |
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Within a stream, new :ref:`DiscoveryRequests <envoy_api_msg_DiscoveryRequest>` supersede any prior |
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:ref:`DiscoveryRequests <envoy_api_msg_DiscoveryRequest>` having the same resource type. This means that |
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the management server only needs to respond to the latest |
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:ref:`DiscoveryRequest <envoy_api_msg_DiscoveryRequest>` on each stream for any given resource type. |
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.. _xds_protocol_resource_hints: |
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How the client specifies what resources to return |
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
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xDS requests allow the client to specify a set of resource names as a hint to the server about |
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which resources the client is interested in. In the SotW protocol variants, this is done via the |
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:ref:`resource_names <envoy_api_field_DiscoveryRequest.resource_names>` specified in the |
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:ref:`DiscoveryRequest <envoy_api_msg_DiscoveryRequest>`; in the incremental protocol variants, |
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this is done via the :ref:`resource_names_subscribe |
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<envoy_api_field_DeltaDiscoveryRequest.resource_names_subscribe>` and |
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:ref:`resource_names_unsubscribe |
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<envoy_api_field_DeltaDiscoveryRequest.resource_names_unsubscribe>` fields in the |
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:ref:`DeltaDiscoveryRequest <envoy_api_msg_DeltaDiscoveryRequest>`. |
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Normally (see below for exceptions), requests must specify the set of resource names that the |
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client is interested in. The management server must supply the requested resources if they exist. |
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The client will silently ignore any supplied resources that were not explicitly requested. When |
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the client sends a new request that changes the set of resources being requested, the server must |
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resend any newly requested resources, even if it previously sent those resources without having |
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been asked for them and the resources have not changed since that time. If the list of resource |
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names becomes empty, that means that the client is no longer interested in any resources of the |
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specified type. |
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For :ref:`Listener <envoy_api_msg_Listener>` and :ref:`Cluster <envoy_api_msg_Cluster>` resource |
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types, there is also a "wildcard" mode, which is triggered when the initial request on the stream |
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for that resource type contains no resource names. In this case, the server should use |
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site-specific business logic to determine the full set of resources that the client is interested |
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in, typically based on the client's :ref:`node <envoy_api_msg_Core.Node>` identification. Note |
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that once a stream has entered wildcard mode for a given resource type, there is no way to change |
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the stream out of wildcard mode; resource names specified in any subsequent request on the stream |
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will be ignored. |
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Client Behavior |
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""""""""""""""" |
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Envoy will always use wildcard mode for :ref:`Listener <envoy_api_msg_Listener>` and |
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:ref:`Cluster <envoy_api_msg_Cluster>` resources. However, other xDS clients (such as gRPC clients |
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that use xDS) may specify explicit resource names for these resource types, for example if they |
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only have a singleton listener and already know its name from some out-of-band configuration. |
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Grouping Resources into Responses |
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
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In the incremental protocol variants, the server sends each resource in its own response. This |
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means that if the server has previously sent 100 resources and only one of them has changed, it |
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may send a response containing only the changed resource; it does not need to resend the 99 |
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resources that have not changed, and the client must not delete the unchanged resources. |
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In the SotW protocol variants, all resource types except for :ref:`Listener |
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<envoy_api_msg_Listener>` and :ref:`Cluster <envoy_api_msg_Cluster>` are grouped into responses |
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in the same way as in the incremental protocol variants. However, |
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:ref:`Listener <envoy_api_msg_Listener>` and :ref:`Cluster <envoy_api_msg_Cluster>` resource types |
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are handled differently: the server must include the complete state of the world, meaning that all |
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resources of the relevant type that are needed by the client must be included, even if they did |
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not change since the last response. This means that if the server has previously sent 100 |
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resources and only one of them has changed, it must resend all 100 of them, even the 99 that were |
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not modified. |
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Note that all of the protocol variants operate on units of whole named resources. There is |
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no mechanism for providing incremental updates of repeated fields within a named resource. |
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Most notably, there is currently no mechanism for incrementally updating individual |
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endpoints within an EDS response. |
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Deleting Resources |
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^^^^^^^^^^^^^^^^^^ |
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In the incremental proocol variants, the server signals the client that a resource should be |
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deleted via the :ref:`removed_resources <envoy_api_field_DeltaDiscoveryResponse.removed_resources>` |
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field of the response. This tells the client to remove the resource from its local cache. |
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In the SotW protocol variants, the criteria for deleting resources is more complex. For |
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:ref:`Listener <envoy_api_msg_Listener>` and :ref:`Cluster <envoy_api_msg_Cluster>` resource types, |
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if a previously seen resource is not present in a new response, that indicates that the resource |
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has been removed, and the client must delete it; a response containing no resources means to delete |
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all resources of that type. However, for other resource types, the API provides no mechanism for |
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the server to tell the client that resources have been deleted; instead, deletions are indicated |
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implicitly by parent resources being changed to no longer refer to a child resource. For example, |
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when the client receives an LDS update removing a :ref:`Listener <envoy_api_msg_Listener>` |
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that was previously pointing to :ref:`RouteConfiguration <envoy_api_msg_RouteConfiguration>` A, |
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if no other :ref:`Listener <envoy_api_msg_Listener>` is pointing to :ref:`RouteConfiguration |
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<envoy_api_msg_RouteConfiguration>` A, then the client may delete A. For those resource types, |
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an empty :ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>` is effectively a no-op |
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from the client's perspective. |
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Knowing When a Requested Resource Does Not Exist |
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
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In the SotW protocol variants, responses for :ref:`Listener <envoy_api_msg_Listener>` and |
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:ref:`Cluster <envoy_api_msg_Cluster>` resource types must include all resources requested by the |
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client. Therefore, if a client requests a resource that does not exist, it can immediately |
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tell this from the response. |
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However, for other resource types, because each resource can be sent in its own response, there is |
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no way to know from the next response whether the newly requested resource exists, because the next |
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response could be an unrelated update for another resource that had already been subscribed to |
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previously. As a result, clients are expected to use a timeout (recommended duration is 15 |
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seconds) after sending a request for a new resource, after which they will consider the requested |
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resource to not exist if they have not received the resource. In Envoy, this is done for |
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:ref:`RouteConfiguration <envoy_api_msg_RouteConfiguration>` and :ref:`ClusterLoadAssignment |
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<envoy_api_msg_ClusterLoadAssignment>` resources during :ref:`resource warming |
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<xds_protocol_resource_warming>`. |
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Note that clients may want to use the same timeout even for :ref:`Listener |
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<envoy_api_msg_Listener>` and :ref:`Cluster <envoy_api_msg_Cluster>` resources, to protect |
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against the case where the management server fails to send a response in a timely manner. |
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Note that even if a requested resource does not exist at the moment when the client requests it, |
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that resource could be created at any time. Management servers must remember the set of resources |
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being requested by the client, and if one of those resources springs into existence later, the |
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server must send an update to the client informing it of the new resource. Clients that initially |
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see a resource that does not exist must be prepared for the resource to be created at any time. |
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Unsubscribing From Resources |
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
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In the incremental protocol variants, resources can be unsubscribed to via the |
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:ref:`resource_names_unsubscribe |
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<envoy_api_field_DeltaDiscoveryRequest.resource_names_unsubscribe>` field. |
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In the SotW protocol variants, each request must contain the full list of resource names being |
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subscribed to in the :ref:`resource_names <envoy_api_field_DiscoveryRequest.resource_names>` field, |
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so unsubscribing to a set of resources is done by sending a new request containing all resource |
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names that are still being subscribed to but not containing the resource names being unsubscribed |
|
to. For example, if the client had previously been subscribed to resources A and B but wishes to |
|
unsubscribe from B, it must send a new request containing only resource A. |
|
|
|
Note that for :ref:`Listener <envoy_api_msg_Listener>` and :ref:`Cluster <envoy_api_msg_Cluster>` |
|
resource types where the stream is in "wildcard" mode (see :ref:`How the client specifies what |
|
resources to return <xds_protocol_resource_hints>` for details), the set of resources being |
|
subscribed to is determined by the server instead of the client, so there is no mechanism |
|
for the client to unsubscribe from resources. |
|
|
|
Requesting Multiple Resources on a Single Stream |
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
|
|
|
For EDS/RDS, Envoy may either generate a distinct stream for each |
|
resource of a given type (e.g. if each :ref:`ConfigSource <envoy_api_msg_core.ConfigSource>` has its own |
|
distinct upstream cluster for a management server), or may combine |
|
together multiple resource requests for a given resource type when they |
|
are destined for the same management server. While this is left to |
|
implementation specifics, management servers should be capable of |
|
handling one or more :ref:`resource_names <envoy_api_field_DiscoveryRequest.resource_names>` for a given resource type in |
|
each request. Both sequence diagrams below are valid for fetching two |
|
EDS resources `{foo, bar}`: |
|
|
|
|Multiple EDS requests on the same stream| |Multiple EDS requests on |
|
distinct streams| |
|
|
|
Resource updates |
|
^^^^^^^^^^^^^^^^ |
|
|
|
As discussed above, Envoy may update the list of :ref:`resource_names <envoy_api_field_DiscoveryRequest.resource_names>` it |
|
presents to the management server in each :ref:`DiscoveryRequest <envoy_api_msg_DiscoveryRequest>` that |
|
ACK/NACKs a specific :ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>`. In addition, Envoy may later |
|
issue additional :ref:`DiscoveryRequests <envoy_api_msg_DiscoveryRequest>` at a given :ref:`version_info <envoy_api_field_DiscoveryRequest.version_info>` to |
|
update the management server with new resource hints. For example, if |
|
Envoy is at EDS version **X** and knows only about cluster ``foo``, but |
|
then receives a CDS update and learns about ``bar`` in addition, it may |
|
issue an additional :ref:`DiscoveryRequest <envoy_api_msg_DiscoveryRequest>` for **X** with `{foo,bar}` as |
|
`resource_names`. |
|
|
|
.. figure:: diagrams/cds-eds-resources.svg |
|
:alt: CDS response leads to EDS resource hint update |
|
|
|
There is a race condition that may arise here; if after a resource hint |
|
update is issued by Envoy at **X**, but before the management server |
|
processes the update it replies with a new version **Y**, the resource |
|
hint update may be interpreted as a rejection of **Y** by presenting an |
|
**X** :ref:`version_info <envoy_api_field_DiscoveryResponse.version_info>`. To avoid this, the management server provides a |
|
``nonce`` that Envoy uses to indicate the specific :ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>` |
|
each :ref:`DiscoveryRequest <envoy_api_msg_DiscoveryRequest>` corresponds to: |
|
|
|
.. figure:: diagrams/update-race.svg |
|
:alt: EDS update race motivates nonces |
|
|
|
The management server should not send a :ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>` for any |
|
:ref:`DiscoveryRequest <envoy_api_msg_DiscoveryRequest>` that has a stale nonce. A nonce becomes stale |
|
following a newer nonce being presented to Envoy in a |
|
:ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>`. A management server does not need to send an |
|
update until it determines a new version is available. Earlier requests |
|
at a version then also become stale. It may process multiple |
|
:ref:`DiscoveryRequests <envoy_api_msg_DiscoveryRequest>` at a version until a new version is ready. |
|
|
|
.. figure:: diagrams/stale-requests.svg |
|
:alt: Requests become stale |
|
|
|
An implication of the above resource update sequencing is that Envoy |
|
does not expect a :ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>` for every :ref:`DiscoveryRequests <envoy_api_msg_DiscoveryRequest>` |
|
it issues. |
|
|
|
.. _xds_protocol_resource_warming: |
|
|
|
Resource warming |
|
~~~~~~~~~~~~~~~~ |
|
|
|
:ref:`Clusters <arch_overview_cluster_warming>` and |
|
:ref:`Listeners <config_listeners_lds>` |
|
go through warming before they can serve requests. This process |
|
happens both during :ref:`Envoy initialization <arch_overview_initialization>` |
|
and when the `Cluster` or `Listener` is updated. Warming of |
|
`Cluster` is completed only when a `ClusterLoadAssignment` response |
|
is supplied by management server. Similarly, warming of `Listener` is |
|
completed only when a `RouteConfiguration` is supplied by management |
|
server if the listener refers to an RDS configuration. Management server |
|
is expected to provide the EDS/RDS updates during warming. If management |
|
server does not provide EDS/RDS responses, Envoy will not initialize |
|
itself during the initialization phase and the updates sent via CDS/LDS |
|
will not take effect until EDS/RDS responses are supplied. |
|
|
|
.. _xds_protocol_eventual_consistency_considerations: |
|
|
|
Eventual consistency considerations |
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
|
|
|
Since Envoy's xDS APIs are eventually consistent, traffic may drop |
|
briefly during updates. For example, if only cluster **X** is known via |
|
CDS/EDS, a `RouteConfiguration` references cluster **X** and is then |
|
adjusted to cluster **Y** just before the CDS/EDS update providing |
|
**Y**, traffic will be blackholed until **Y** is known about by the |
|
Envoy instance. |
|
|
|
For some applications, a temporary drop of traffic is acceptable, |
|
retries at the client or by other Envoy sidecars will hide this drop. |
|
For other scenarios where drop can't be tolerated, traffic drop could |
|
have been avoided by providing a CDS/EDS update with both **X** and |
|
**Y**, then the RDS update repointing from **X** to **Y** and then a |
|
CDS/EDS update dropping **X**. |
|
|
|
In general, to avoid traffic drop, sequencing of updates should follow a |
|
make before break model, wherein: |
|
|
|
- CDS updates (if any) must always be pushed first. |
|
- EDS updates (if any) must arrive after CDS updates for the respective clusters. |
|
- LDS updates must arrive after corresponding CDS/EDS updates. |
|
- RDS updates related to the newly added listeners must arrive after CDS/EDS/LDS updates. |
|
- VHDS updates (if any) related to the newly added RouteConfigurations must arrive after RDS updates. |
|
- Stale CDS clusters and related EDS endpoints (ones no longer being referenced) can then be removed. |
|
|
|
xDS updates can be pushed independently if no new |
|
clusters/routes/listeners are added or if it's acceptable to temporarily |
|
drop traffic during updates. Note that in case of LDS updates, the |
|
listeners will be warmed before they receive traffic, i.e. the dependent |
|
routes are fetched through RDS if configured. Clusters are warmed when |
|
adding/removing/updating clusters. On the other hand, routes are not |
|
warmed, i.e., the management plane must ensure that clusters referenced |
|
by a route are in place, before pushing the updates for a route. |
|
|
|
.. _xds_protocol_ads: |
|
|
|
Aggregated Discovery Service |
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
|
|
|
It's challenging to provide the above guarantees on sequencing to avoid |
|
traffic drop when management servers are distributed. ADS allow a single |
|
management server, via a single gRPC stream, to deliver all API updates. |
|
This provides the ability to carefully sequence updates to avoid traffic |
|
drop. With ADS, a single stream is used with multiple independent |
|
:ref:`DiscoveryRequest <envoy_api_msg_DiscoveryRequest>`/:ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>` sequences multiplexed via the |
|
type URL. For any given type URL, the above sequencing of |
|
:ref:`DiscoveryRequest <envoy_api_msg_DiscoveryRequest>` and :ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>` messages applies. An |
|
example update sequence might look like: |
|
|
|
.. figure:: diagrams/ads.svg |
|
:alt: EDS/CDS multiplexed on an ADS stream |
|
|
|
A single ADS stream is available per Envoy instance. |
|
|
|
An example minimal ``bootstrap.yaml`` fragment for ADS configuration is: |
|
|
|
.. code:: yaml |
|
|
|
node: |
|
id: <node identifier> |
|
dynamic_resources: |
|
cds_config: {ads: {}} |
|
lds_config: {ads: {}} |
|
ads_config: |
|
api_type: GRPC |
|
grpc_services: |
|
envoy_grpc: |
|
cluster_name: ads_cluster |
|
static_resources: |
|
clusters: |
|
- name: ads_cluster |
|
connect_timeout: { seconds: 5 } |
|
type: STATIC |
|
hosts: |
|
- socket_address: |
|
address: <ADS management server IP address> |
|
port_value: <ADS management server port> |
|
lb_policy: ROUND_ROBIN |
|
http2_protocol_options: {} |
|
upstream_connection_options: |
|
# configure a TCP keep-alive to detect and reconnect to the admin |
|
# server in the event of a TCP socket disconnection |
|
tcp_keepalive: |
|
... |
|
admin: |
|
... |
|
|
|
.. _xds_protocol_delta: |
|
|
|
Incremental xDS |
|
~~~~~~~~~~~~~~~ |
|
|
|
Incremental xDS is a separate xDS endpoint that: |
|
|
|
- Allows the protocol to communicate on the wire in terms of |
|
resource/resource name deltas ("Delta xDS"). This supports the goal |
|
of scalability of xDS resources. Rather than deliver all 100k |
|
clusters when a single cluster is modified, the management server |
|
only needs to deliver the single cluster that changed. |
|
- Allows the Envoy to on-demand / lazily request additional resources. |
|
For example, requesting a cluster only when a request for that |
|
cluster arrives. |
|
|
|
An Incremental xDS session is always in the context of a gRPC |
|
bidirectional stream. This allows the xDS server to keep track of the |
|
state of xDS clients connected to it. There is no REST version of |
|
Incremental xDS yet. |
|
|
|
In the delta xDS wire protocol, the nonce field is required and used to |
|
pair a :ref:`DeltaDiscoveryResponse <envoy_api_msg_DeltaDiscoveryResponse>` |
|
to a :ref:`DeltaDiscoveryRequest <envoy_api_msg_DeltaDiscoveryRequest>` |
|
ACK or NACK. Optionally, a response message level :ref:`system_version_info <envoy_api_field_DeltaDiscoveryResponse.system_version_info>` |
|
is present for debugging purposes only. |
|
|
|
:ref:`DeltaDiscoveryRequest <envoy_api_msg_DeltaDiscoveryRequest>` can be sent in the following situations: |
|
|
|
- Initial message in a xDS bidirectional gRPC stream. |
|
- As an ACK or NACK response to a previous :ref:`DeltaDiscoveryResponse <envoy_api_msg_DeltaDiscoveryResponse>`. In this case the :ref:`response_nonce <envoy_api_field_DiscoveryRequest.response_nonce>` is set to the nonce value in the Response. ACK or NACK is determined by the absence or presence of :ref:`error_detail <envoy_api_field_DiscoveryRequest.error_detail>`. |
|
- Spontaneous :ref:`DeltaDiscoveryRequests <envoy_api_msg_DeltaDiscoveryRequest>` from the client. This can be done to dynamically add or remove elements from the tracked :ref:`resource_names <envoy_api_field_DiscoveryRequest.resource_names>` set. In this case :ref:`response_nonce <envoy_api_field_DiscoveryRequest.response_nonce>` must be omitted. |
|
|
|
In this first example the client connects and receives a first update |
|
that it ACKs. The second update fails and the client NACKs the update. |
|
Later the xDS client spontaneously requests the "wc" resource. |
|
|
|
.. figure:: diagrams/incremental.svg |
|
:alt: Incremental session example |
|
|
|
On reconnect the Incremental xDS client may tell the server of its known |
|
resources to avoid resending them over the network. Because no state is |
|
assumed to be preserved from the previous stream, the reconnecting |
|
client must provide the server with all resource names it is interested |
|
in. |
|
|
|
.. figure:: diagrams/incremental-reconnect.svg |
|
:alt: Incremental reconnect example |
|
|
|
Resource names |
|
^^^^^^^^^^^^^^ |
|
|
|
Resources are identified by a resource name or an alias. Aliases of a |
|
resource, if present, can be identified by the alias field in the |
|
resource of a :ref:`DeltaDiscoveryResponse <envoy_api_msg_DeltaDiscoveryResponse>`. The resource name will be |
|
returned in the name field in the resource of a |
|
:ref:`DeltaDiscoveryResponse <envoy_api_msg_DeltaDiscoveryResponse>`. |
|
|
|
Subscribing to Resources |
|
^^^^^^^^^^^^^^^^^^^^^^^^ |
|
|
|
The client can send either an alias or the name of a resource in the |
|
:ref:`resource_names_subscribe <envoy_api_field_DeltaDiscoveryRequest.resource_names_subscribe>` field of a :ref:`DeltaDiscoveryRequest <envoy_api_msg_DeltaDiscoveryRequest>` in |
|
order to subscribe to a resource. Both the names and aliases of |
|
resources should be checked in order to determine whether the entity in |
|
question has been subscribed to. |
|
|
|
A :ref:`resource_names_subscribe <envoy_api_field_DeltaDiscoveryRequest.resource_names_subscribe>` field may contain resource names that the |
|
server believes the client is already subscribed to, and furthermore has |
|
the most recent versions of. However, the server *must* still provide |
|
those resources in the response; due to implementation details hidden |
|
from the server, the client may have "forgotten" those resources despite |
|
apparently remaining subscribed. |
|
|
|
.. _xds_protocol_unsubscribe: |
|
|
|
Unsubscribing from Resources |
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
|
|
|
When a client loses interest in some resources, it will indicate that |
|
with the :ref:`resource_names_unsubscribe <envoy_api_field_DeltaDiscoveryRequest.resource_names_unsubscribe>` field of a |
|
:ref:`DeltaDiscoveryRequest <envoy_api_msg_DeltaDiscoveryRequest>`. As with :ref:`resource_names_subscribe <envoy_api_field_DeltaDiscoveryRequest.resource_names_subscribe>`, these |
|
may be resource names or aliases. |
|
|
|
A :ref:`resource_names_unsubscribe <envoy_api_field_DeltaDiscoveryRequest.resource_names_unsubscribe>` field may contain superfluous resource |
|
names, which the server thought the client was already not subscribed |
|
to. The server must cleanly process such a request; it can simply ignore |
|
these phantom unsubscriptions. |
|
|
|
REST-JSON polling subscriptions |
|
------------------------------- |
|
|
|
Synchronous (long) polling via REST endpoints is also available for the |
|
xDS singleton APIs. The above sequencing of messages is similar, except |
|
no persistent stream is maintained to the management server. It is |
|
expected that there is only a single outstanding request at any point in |
|
time, and as a result the response nonce is optional in REST-JSON. The |
|
`JSON canonical transform of |
|
proto3 <https://developers.google.com/protocol-buffers/docs/proto3#json>`__ |
|
is used to encode :ref:`DiscoveryRequest <envoy_api_msg_DiscoveryRequest>` and :ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>` |
|
messages. ADS is not available for REST-JSON polling. |
|
|
|
When the poll period is set to a small value, with the intention of long |
|
polling, then there is also a requirement to avoid sending a |
|
:ref:`DiscoveryResponse <envoy_api_msg_DiscoveryResponse>` unless a change to the underlying resources has |
|
occurred via a :ref:`resource update <xds_protocol_resource_update>`. |
|
|
|
.. |Multiple EDS requests on the same stream| image:: diagrams/eds-same-stream.svg |
|
.. |Multiple EDS requests on distinct streams| image:: diagrams/eds-distinct-stream.svg
|
|
|