// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: MPL-2.0 syntax = "proto3"; package hashicorp.consul.mesh.v2beta1; import "pbmesh/v2beta1/common.proto"; import "pbmesh/v2beta1/http_route_retries.proto"; import "pbmesh/v2beta1/http_route_timeouts.proto"; import "pbresource/annotations.proto"; // NOTE: this should align to the GAMMA/gateway-api version, or at least be // easily translatable. // // https://gateway-api.sigs.k8s.io/references/spec/#gateway.networking.k8s.io/v1alpha2.HTTPRoute // // This is a Resource type. message HTTPRoute { option (hashicorp.consul.resource.spec) = {scope: SCOPE_NAMESPACE}; // ParentRefs references the resources (usually Services) that a Route wants // to be attached to. // // It is invalid to reference an identical parent more than once. It is valid // to reference multiple distinct sections within the same parent resource. repeated ParentReference parent_refs = 1; // Hostnames are the hostnames for which this HTTPRoute should respond to requests. // // This is only valid for north/south. repeated string hostnames = 2; // Rules are a list of HTTP-based routing rules that this route should // use for constructing a routing table. repeated HTTPRouteRule rules = 3; } // HTTPRouteRule specifies the routing rules used to determine what upstream // service an HTTP request is routed to. message HTTPRouteRule { repeated HTTPRouteMatch matches = 1; repeated HTTPRouteFilter filters = 2; // BackendRefs defines the backend(s) where matching requests should be sent. // // Failure behavior here depends on how many BackendRefs are specified and // how many are invalid. // // If all entries in BackendRefs are invalid, and there are also no filters // specified in this route rule, all traffic which matches this rule MUST // receive a 500 status code. // // See the HTTPBackendRef definition for the rules about what makes a single // HTTPBackendRef invalid. // // When a HTTPBackendRef is invalid, 500 status codes MUST be returned for // requests that would have otherwise been routed to an invalid backend. If // multiple backends are specified, and some are invalid, the proportion of // requests that would otherwise have been routed to an invalid backend MUST // receive a 500 status code. // // For example, if two backends are specified with equal weights, and one is // invalid, 50 percent of traffic must receive a 500. Implementations may // choose how that 50 percent is determined. repeated HTTPBackendRef backend_refs = 3; HTTPRouteTimeouts timeouts = 4; HTTPRouteRetries retries = 5; } message HTTPRouteMatch { // Path specifies a HTTP request path matcher. If this field is not // specified, a default prefix match on the “/” path is provided. HTTPPathMatch path = 1; // Headers specifies HTTP request header matchers. Multiple match values are // ANDed together, meaning, a request must match all the specified headers to // select the route. repeated HTTPHeaderMatch headers = 2; // QueryParams specifies HTTP query parameter matchers. Multiple match values // are ANDed together, meaning, a request must match all the specified query // parameters to select the route. repeated HTTPQueryParamMatch query_params = 3; // Method specifies HTTP method matcher. When specified, this route will be // matched only if the request has the specified method. string method = 4; } message HTTPPathMatch { // Type specifies how to match against the path Value. PathMatchType type = 1; // Value of the HTTP path to match against. string value = 2; } // PathMatchType specifies the semantics of how HTTP paths should be compared. // Valid PathMatchType values, along with their support levels, are: // // PathPrefix and Exact paths must be syntactically valid: // // - Must begin with the / character // - Must not contain consecutive / characters (e.g. /foo///, //). // - Note that values may be added to this enum, implementations must ensure that unknown values will not cause a crash. // // Unknown values here must result in the implementation setting the Accepted // Condition for the Route to status: False, with a Reason of UnsupportedValue. enum PathMatchType { PATH_MATCH_TYPE_UNSPECIFIED = 0; PATH_MATCH_TYPE_EXACT = 1; PATH_MATCH_TYPE_PREFIX = 2; PATH_MATCH_TYPE_REGEX = 3; } message HTTPHeaderMatch { // Type specifies how to match against the value of the header. HeaderMatchType type = 1; // Name is the name of the HTTP Header to be matched. Name matching MUST be // case insensitive. (See https://tools.ietf.org/html/rfc7230#section-3.2). // // If multiple entries specify equivalent header names, only the first entry // with an equivalent name MUST be considered for a match. Subsequent entries // with an equivalent header name MUST be ignored. Due to the // case-insensitivity of header names, “foo” and “Foo” are considered // equivalent. // // When a header is repeated in an HTTP request, it is // implementation-specific behavior as to how this is represented. Generally, // proxies should follow the guidance from the RFC: // https://www.rfc-editor.org/rfc/rfc7230.html#section-3.2.2 regarding // processing a repeated header, with special handling for “Set-Cookie”. string name = 2; // Value is the value of HTTP Header to be matched. string value = 3; // NOTE: not in gamma; service-router compat bool invert = 4; } // HeaderMatchType specifies the semantics of how HTTP header values should be // compared. Valid HeaderMatchType values, along with their conformance levels, // are: // // Note that values may be added to this enum, implementations must ensure that // unknown values will not cause a crash. // // Unknown values here must result in the implementation setting the Accepted // Condition for the Route to status: False, with a Reason of UnsupportedValue. enum HeaderMatchType { HEADER_MATCH_TYPE_UNSPECIFIED = 0; HEADER_MATCH_TYPE_EXACT = 1; HEADER_MATCH_TYPE_REGEX = 2; // consul only after this point (service-router compat) HEADER_MATCH_TYPE_PRESENT = 3; HEADER_MATCH_TYPE_PREFIX = 4; HEADER_MATCH_TYPE_SUFFIX = 5; } message HTTPQueryParamMatch { // Type specifies how to match against the value of the query parameter. QueryParamMatchType type = 1; // Name is the name of the HTTP query param to be matched. This must be an // exact string match. (See // https://tools.ietf.org/html/rfc7230#section-2.7.3). // // If multiple entries specify equivalent query param names, only the first // entry with an equivalent name MUST be considered for a match. Subsequent // entries with an equivalent query param name MUST be ignored. // // If a query param is repeated in an HTTP request, the behavior is purposely // left undefined, since different data planes have different capabilities. // However, it is recommended that implementations should match against the // first value of the param if the data plane supports it, as this behavior // is expected in other load balancing contexts outside of the Gateway API. // // Users SHOULD NOT route traffic based on repeated query params to guard // themselves against potential differences in the implementations. string name = 2; // Value is the value of HTTP query param to be matched. string value = 3; } enum QueryParamMatchType { QUERY_PARAM_MATCH_TYPE_UNSPECIFIED = 0; QUERY_PARAM_MATCH_TYPE_EXACT = 1; QUERY_PARAM_MATCH_TYPE_REGEX = 2; // consul only after this point (service-router compat) QUERY_PARAM_MATCH_TYPE_PRESENT = 3; } message HTTPRouteFilter { // RequestHeaderModifier defines a schema for a filter that modifies request // headers. HTTPHeaderFilter request_header_modifier = 1; // ResponseHeaderModifier defines a schema for a filter that modifies // response headers. HTTPHeaderFilter response_header_modifier = 2; // URLRewrite defines a schema for a filter that modifies a request during // forwarding. HTTPURLRewriteFilter url_rewrite = 5; } message HTTPHeaderFilter { // Set overwrites the request with the given header (name, value) before the // action. repeated HTTPHeader set = 1; // Add adds the given header(s) (name, value) to the request before the // action. It appends to any existing values associated with the header name. repeated HTTPHeader add = 2; // Remove the given header(s) from the HTTP request before the action. The // value of Remove is a list of HTTP header names. Note that the header names // are case-insensitive (see // https://datatracker.ietf.org/doc/html/rfc2616#section-4.2). repeated string remove = 3; } message HTTPHeader { string name = 1; string value = 2; } message HTTPURLRewriteFilter { string path_prefix = 1; } message HTTPBackendRef { BackendReference backend_ref = 1; // Weight specifies the proportion of requests forwarded to the referenced // backend. This is computed as weight/(sum of all weights in this // BackendRefs list). For non-zero values, there may be some epsilon from the // exact proportion defined here depending on the precision an implementation // supports. Weight is not a percentage and the sum of weights does not need // to equal 100. // //If only one backend is specified and it has a weight greater than 0, 100% //of the traffic is forwarded to that backend. If weight is set to 0, no //traffic should be forwarded for this entry. If unspecified, weight defaults //to 1. uint32 weight = 2; // Filters defined at this level should be executed if and only if the // request is being forwarded to the backend defined here. repeated HTTPRouteFilter filters = 3; }