syntax = "proto3"; package envoy.service.auth.v2; import "envoy/api/v2/core/address.proto"; import "envoy/api/v2/core/base.proto"; import "google/protobuf/timestamp.proto"; option java_package = "io.envoyproxy.envoy.service.auth.v2"; option java_outer_classname = "AttributeContextProto"; option java_multiple_files = true; // [#protodoc-title: Attribute Context ] // See :ref:`network filter configuration overview ` // and :ref:`HTTP filter configuration overview `. // An attribute is a piece of metadata that describes an activity on a network. // For example, the size of an HTTP request, or the status code of an HTTP response. // // Each attribute has a type and a name, which is logically defined as a proto message field // of the `AttributeContext`. The `AttributeContext` is a collection of individual attributes // supported by Envoy authorization system. // [#comment: The following items are left out of this proto // Request.Auth field for jwt tokens // Request.Api for api management // Origin peer that originated the request // Caching Protocol // request_context return values to inject back into the filter chain // peer.claims -- from X.509 extensions // Configuration // - field mask to send // - which return values from request_context are copied back // - which return values are copied into request_headers] // [#next-free-field: 12] message AttributeContext { // This message defines attributes for a node that handles a network request. // The node can be either a service or an application that sends, forwards, // or receives the request. Service peers should fill in the `service`, // `principal`, and `labels` as appropriate. // [#next-free-field: 6] message Peer { // The address of the peer, this is typically the IP address. // It can also be UDS path, or others. api.v2.core.Address address = 1; // The canonical service name of the peer. // It should be set to :ref:`the HTTP x-envoy-downstream-service-cluster // ` // If a more trusted source of the service name is available through mTLS/secure naming, it // should be used. string service = 2; // The labels associated with the peer. // These could be pod labels for Kubernetes or tags for VMs. // The source of the labels could be an X.509 certificate or other configuration. map labels = 3; // The authenticated identity of this peer. // For example, the identity associated with the workload such as a service account. // If an X.509 certificate is used to assert the identity this field should be sourced from // `URI Subject Alternative Names`, `DNS Subject Alternate Names` or `Subject` in that order. // The primary identity should be the principal. The principal format is issuer specific. // // Example: // * SPIFFE format is `spiffe://trust-domain/path` // * Google account format is `https://accounts.google.com/{userid}` string principal = 4; // The X.509 certificate used to authenticate the identify of this peer. // When present, the certificate contents are encoded in URL and PEM format. string certificate = 5; } // Represents a network request, such as an HTTP request. message Request { // The timestamp when the proxy receives the first byte of the request. google.protobuf.Timestamp time = 1; // Represents an HTTP request or an HTTP-like request. HttpRequest http = 2; } // This message defines attributes for an HTTP request. // HTTP/1.x, HTTP/2, gRPC are all considered as HTTP requests. // [#next-free-field: 12] message HttpRequest { // The unique ID for a request, which can be propagated to downstream // systems. The ID should have low probability of collision // within a single day for a specific service. // For HTTP requests, it should be X-Request-ID or equivalent. string id = 1; // The HTTP request method, such as `GET`, `POST`. string method = 2; // The HTTP request headers. If multiple headers share the same key, they // must be merged according to the HTTP spec. All header keys must be // lower-cased, because HTTP header keys are case-insensitive. map headers = 3; // The request target, as it appears in the first line of the HTTP request. This includes // the URL path and query-string. No decoding is performed. string path = 4; // The HTTP request `Host` or 'Authority` header value. string host = 5; // The HTTP URL scheme, such as `http` and `https`. string scheme = 6; // This field is always empty, and exists for compatibility reasons. The HTTP URL query is // included in `path` field. string query = 7; // This field is always empty, and exists for compatibility reasons. The URL fragment is // not submitted as part of HTTP requests; it is unknowable. string fragment = 8; // The HTTP request size in bytes. If unknown, it must be -1. int64 size = 9; // The network protocol used with the request, such as "HTTP/1.0", "HTTP/1.1", or "HTTP/2". // // See :repo:`headers.h:ProtocolStrings ` for a list of all // possible values. string protocol = 10; // The HTTP request body. string body = 11; } // The source of a network activity, such as starting a TCP connection. // In a multi hop network activity, the source represents the sender of the // last hop. Peer source = 1; // The destination of a network activity, such as accepting a TCP connection. // In a multi hop network activity, the destination represents the receiver of // the last hop. Peer destination = 2; // Represents a network request, such as an HTTP request. Request request = 4; // This is analogous to http_request.headers, however these contents will not be sent to the // upstream server. Context_extensions provide an extension mechanism for sending additional // information to the auth server without modifying the proto definition. It maps to the // internal opaque context in the filter chain. map context_extensions = 10; // Dynamic metadata associated with the request. api.v2.core.Metadata metadata_context = 11; }