syntax = "proto3"; package envoy.config.route.v3; import "envoy/config/core/v3/base.proto"; import "envoy/config/core/v3/extension.proto"; import "envoy/config/core/v3/proxy_protocol.proto"; import "envoy/type/matcher/v3/metadata.proto"; import "envoy/type/matcher/v3/regex.proto"; import "envoy/type/matcher/v3/string.proto"; import "envoy/type/metadata/v3/metadata.proto"; import "envoy/type/tracing/v3/custom_tag.proto"; import "envoy/type/v3/percent.proto"; import "envoy/type/v3/range.proto"; import "google/protobuf/any.proto"; import "google/protobuf/duration.proto"; import "google/protobuf/wrappers.proto"; import "xds/annotations/v3/status.proto"; import "xds/type/matcher/v3/matcher.proto"; import "envoy/annotations/deprecation.proto"; import "udpa/annotations/migrate.proto"; import "udpa/annotations/status.proto"; import "udpa/annotations/versioning.proto"; import "validate/validate.proto"; option java_package = "io.envoyproxy.envoy.config.route.v3"; option java_outer_classname = "RouteComponentsProto"; option java_multiple_files = true; option go_package = "github.com/envoyproxy/go-control-plane/envoy/config/route/v3;routev3"; option (udpa.annotations.file_status).package_version_status = ACTIVE; // [#protodoc-title: HTTP route components] // * Routing :ref:`architecture overview ` // * HTTP :ref:`router filter ` // The top level element in the routing configuration is a virtual host. Each virtual host has // a logical name as well as a set of domains that get routed to it based on the incoming request's // host header. This allows a single listener to service multiple top level domain path trees. Once // a virtual host is selected based on the domain, the routes are processed in order to see which // upstream cluster to route to or whether to perform a redirect. // [#next-free-field: 23] message VirtualHost { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.VirtualHost"; enum TlsRequirementType { // No TLS requirement for the virtual host. NONE = 0; // External requests must use TLS. If a request is external and it is not // using TLS, a 301 redirect will be sent telling the client to use HTTPS. EXTERNAL_ONLY = 1; // All requests must use TLS. If a request is not using TLS, a 301 redirect // will be sent telling the client to use HTTPS. ALL = 2; } reserved 9, 12; reserved "per_filter_config"; // The logical name of the virtual host. This is used when emitting certain // statistics but is not relevant for routing. string name = 1 [(validate.rules).string = {min_len: 1}]; // A list of domains (host/authority header) that will be matched to this // virtual host. Wildcard hosts are supported in the suffix or prefix form. // // Domain search order: // 1. Exact domain names: ``www.foo.com``. // 2. Suffix domain wildcards: ``*.foo.com`` or ``*-bar.foo.com``. // 3. Prefix domain wildcards: ``foo.*`` or ``foo-*``. // 4. Special wildcard ``*`` matching any domain. // // .. note:: // // The wildcard will not match the empty string. // e.g. ``*-bar.foo.com`` will match ``baz-bar.foo.com`` but not ``-bar.foo.com``. // The longest wildcards match first. // Only a single virtual host in the entire route configuration can match on ``*``. A domain // must be unique across all virtual hosts or the config will fail to load. // // Domains cannot contain control characters. This is validated by the well_known_regex HTTP_HEADER_VALUE. repeated string domains = 2 [(validate.rules).repeated = { min_items: 1 items {string {well_known_regex: HTTP_HEADER_VALUE strict: false}} }]; // The list of routes that will be matched, in order, for incoming requests. // The first route that matches will be used. // Only one of this and ``matcher`` can be specified. repeated Route routes = 3; // [#next-major-version: This should be included in a oneof with routes wrapped in a message.] // The match tree to use when resolving route actions for incoming requests. Only one of this and ``routes`` // can be specified. xds.type.matcher.v3.Matcher matcher = 21 [(xds.annotations.v3.field_status).work_in_progress = true]; // Specifies the type of TLS enforcement the virtual host expects. If this option is not // specified, there is no TLS requirement for the virtual host. TlsRequirementType require_tls = 4 [(validate.rules).enum = {defined_only: true}]; // A list of virtual clusters defined for this virtual host. Virtual clusters // are used for additional statistics gathering. repeated VirtualCluster virtual_clusters = 5; // Specifies a set of rate limit configurations that will be applied to the // virtual host. repeated RateLimit rate_limits = 6; // Specifies a list of HTTP headers that should be added to each request // handled by this virtual host. Headers specified at this level are applied // after headers from enclosed :ref:`envoy_v3_api_msg_config.route.v3.Route` and before headers from the // enclosing :ref:`envoy_v3_api_msg_config.route.v3.RouteConfiguration`. For more information, including // details on header value syntax, see the documentation on :ref:`custom request headers // `. repeated core.v3.HeaderValueOption request_headers_to_add = 7 [(validate.rules).repeated = {max_items: 1000}]; // Specifies a list of HTTP headers that should be removed from each request // handled by this virtual host. repeated string request_headers_to_remove = 13 [(validate.rules).repeated = { items {string {min_len: 1 well_known_regex: HTTP_HEADER_NAME strict: false}} }]; // Specifies a list of HTTP headers that should be added to each response // handled by this virtual host. Headers specified at this level are applied // after headers from enclosed :ref:`envoy_v3_api_msg_config.route.v3.Route` and before headers from the // enclosing :ref:`envoy_v3_api_msg_config.route.v3.RouteConfiguration`. For more information, including // details on header value syntax, see the documentation on :ref:`custom request headers // `. repeated core.v3.HeaderValueOption response_headers_to_add = 10 [(validate.rules).repeated = {max_items: 1000}]; // Specifies a list of HTTP headers that should be removed from each response // handled by this virtual host. repeated string response_headers_to_remove = 11 [(validate.rules).repeated = { items {string {min_len: 1 well_known_regex: HTTP_HEADER_NAME strict: false}} }]; // Indicates that the virtual host has a CORS policy. This field is ignored if related cors policy is // found in the // :ref:`VirtualHost.typed_per_filter_config`. // // .. attention:: // // This option has been deprecated. Please use // :ref:`VirtualHost.typed_per_filter_config` // to configure the CORS HTTP filter. CorsPolicy cors = 8 [deprecated = true, (envoy.annotations.deprecated_at_minor_version) = "3.0"]; // The per_filter_config field can be used to provide virtual host-specific configurations for filters. // The key should match the :ref:`filter config name // `. // The canonical filter name (e.g., ``envoy.filters.http.buffer`` for the HTTP buffer filter) can also // be used for the backwards compatibility. If there is no entry referred by the filter config name, the // entry referred by the canonical filter name will be provided to the filters as fallback. // // Use of this field is filter specific; // see the :ref:`HTTP filter documentation ` for if and how it is utilized. // [#comment: An entry's value may be wrapped in a // :ref:`FilterConfig` // message to specify additional options.] map typed_per_filter_config = 15; // Decides whether the :ref:`x-envoy-attempt-count // ` header should be included // in the upstream request. Setting this option will cause it to override any existing header // value, so in the case of two Envoys on the request path with this option enabled, the upstream // will see the attempt count as perceived by the second Envoy. Defaults to false. // This header is unaffected by the // :ref:`suppress_envoy_headers // ` flag. // // [#next-major-version: rename to include_attempt_count_in_request.] bool include_request_attempt_count = 14; // Decides whether the :ref:`x-envoy-attempt-count // ` header should be included // in the downstream response. Setting this option will cause the router to override any existing header // value, so in the case of two Envoys on the request path with this option enabled, the downstream // will see the attempt count as perceived by the Envoy closest upstream from itself. Defaults to false. // This header is unaffected by the // :ref:`suppress_envoy_headers // ` flag. bool include_attempt_count_in_response = 19; // Indicates the retry policy for all routes in this virtual host. Note that setting a // route level entry will take precedence over this config and it'll be treated // independently (e.g.: values are not inherited). RetryPolicy retry_policy = 16; // [#not-implemented-hide:] // Specifies the configuration for retry policy extension. Note that setting a route level entry // will take precedence over this config and it'll be treated independently (e.g.: values are not // inherited). :ref:`Retry policy ` should not be // set if this field is used. google.protobuf.Any retry_policy_typed_config = 20; // Indicates the hedge policy for all routes in this virtual host. Note that setting a // route level entry will take precedence over this config and it'll be treated // independently (e.g.: values are not inherited). HedgePolicy hedge_policy = 17; // The maximum bytes which will be buffered for retries and shadowing. // If set and a route-specific limit is not set, the bytes actually buffered will be the minimum // value of this and the listener per_connection_buffer_limit_bytes. google.protobuf.UInt32Value per_request_buffer_limit_bytes = 18; // Specify a set of default request mirroring policies for every route under this virtual host. // It takes precedence over the route config mirror policy entirely. // That is, policies are not merged, the most specific non-empty one becomes the mirror policies. repeated RouteAction.RequestMirrorPolicy request_mirror_policies = 22; } // A filter-defined action type. message FilterAction { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.FilterAction"; google.protobuf.Any action = 1; } // This can be used in route matcher :ref:`VirtualHost.matcher `. // When the matcher matches, routes will be matched and run. message RouteList { // The list of routes that will be matched and run, in order. The first route that matches will be used. repeated Route routes = 1; } // A route is both a specification of how to match a request as well as an indication of what to do // next (e.g., redirect, forward, rewrite, etc.). // // .. attention:: // // Envoy supports routing on HTTP method via :ref:`header matching // `. // [#next-free-field: 20] message Route { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.Route"; reserved 6, 8; reserved "per_filter_config"; // Name for the route. string name = 14; // Route matching parameters. RouteMatch match = 1 [(validate.rules).message = {required: true}]; oneof action { option (validate.required) = true; // Route request to some upstream cluster. RouteAction route = 2; // Return a redirect. RedirectAction redirect = 3; // Return an arbitrary HTTP response directly, without proxying. DirectResponseAction direct_response = 7; // [#not-implemented-hide:] // A filter-defined action (e.g., it could dynamically generate the RouteAction). // [#comment: TODO(samflattery): Remove cleanup in route_fuzz_test.cc when // implemented] FilterAction filter_action = 17; // [#not-implemented-hide:] // An action used when the route will generate a response directly, // without forwarding to an upstream host. This will be used in non-proxy // xDS clients like the gRPC server. It could also be used in the future // in Envoy for a filter that directly generates responses for requests. NonForwardingAction non_forwarding_action = 18; } // The Metadata field can be used to provide additional information // about the route. It can be used for configuration, stats, and logging. // The metadata should go under the filter namespace that will need it. // For instance, if the metadata is intended for the Router filter, // the filter name should be specified as ``envoy.filters.http.router``. core.v3.Metadata metadata = 4; // Decorator for the matched route. Decorator decorator = 5; // The per_filter_config field can be used to provide route-specific configurations for filters. // The key should match the :ref:`filter config name // `. // The canonical filter name (e.g., ``envoy.filters.http.buffer`` for the HTTP buffer filter) can also // be used for the backwards compatibility. If there is no entry referred by the filter config name, the // entry referred by the canonical filter name will be provided to the filters as fallback. // // Use of this field is filter specific; // see the :ref:`HTTP filter documentation ` for if and how it is utilized. // [#comment: An entry's value may be wrapped in a // :ref:`FilterConfig` // message to specify additional options.] map typed_per_filter_config = 13; // Specifies a set of headers that will be added to requests matching this // route. Headers specified at this level are applied before headers from the // enclosing :ref:`envoy_v3_api_msg_config.route.v3.VirtualHost` and // :ref:`envoy_v3_api_msg_config.route.v3.RouteConfiguration`. For more information, including details on // header value syntax, see the documentation on :ref:`custom request headers // `. repeated core.v3.HeaderValueOption request_headers_to_add = 9 [(validate.rules).repeated = {max_items: 1000}]; // Specifies a list of HTTP headers that should be removed from each request // matching this route. repeated string request_headers_to_remove = 12 [(validate.rules).repeated = { items {string {min_len: 1 well_known_regex: HTTP_HEADER_NAME strict: false}} }]; // Specifies a set of headers that will be added to responses to requests // matching this route. Headers specified at this level are applied before // headers from the enclosing :ref:`envoy_v3_api_msg_config.route.v3.VirtualHost` and // :ref:`envoy_v3_api_msg_config.route.v3.RouteConfiguration`. For more information, including // details on header value syntax, see the documentation on // :ref:`custom request headers `. repeated core.v3.HeaderValueOption response_headers_to_add = 10 [(validate.rules).repeated = {max_items: 1000}]; // Specifies a list of HTTP headers that should be removed from each response // to requests matching this route. repeated string response_headers_to_remove = 11 [(validate.rules).repeated = { items {string {min_len: 1 well_known_regex: HTTP_HEADER_NAME strict: false}} }]; // Presence of the object defines whether the connection manager's tracing configuration // is overridden by this route specific instance. Tracing tracing = 15; // The maximum bytes which will be buffered for retries and shadowing. // If set, the bytes actually buffered will be the minimum value of this and the // listener per_connection_buffer_limit_bytes. google.protobuf.UInt32Value per_request_buffer_limit_bytes = 16; // The human readable prefix to use when emitting statistics for this endpoint. // The statistics are rooted at vhost..route.. // This should be set for highly critical // endpoints that one wishes to get “per-route” statistics on. // If not set, endpoint statistics are not generated. // // The emitted statistics are the same as those documented for :ref:`virtual clusters `. // // .. warning:: // // We do not recommend setting up a stat prefix for // every application endpoint. This is both not easily maintainable and // statistics use a non-trivial amount of memory(approximately 1KiB per route). string stat_prefix = 19; } // Compared to the :ref:`cluster ` field that specifies a // single upstream cluster as the target of a request, the :ref:`weighted_clusters // ` option allows for specification of // multiple upstream clusters along with weights that indicate the percentage of // traffic to be forwarded to each cluster. The router selects an upstream cluster based on the // weights. message WeightedCluster { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.WeightedCluster"; // [#next-free-field: 13] message ClusterWeight { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.WeightedCluster.ClusterWeight"; reserved 7, 8; reserved "per_filter_config"; // Only one of ``name`` and ``cluster_header`` may be specified. // [#next-major-version: Need to add back the validation rule: (validate.rules).string = {min_len: 1}] // Name of the upstream cluster. The cluster must exist in the // :ref:`cluster manager configuration `. string name = 1 [(udpa.annotations.field_migrate).oneof_promotion = "cluster_specifier"]; // Only one of ``name`` and ``cluster_header`` may be specified. // [#next-major-version: Need to add back the validation rule: (validate.rules).string = {min_len: 1 }] // Envoy will determine the cluster to route to by reading the value of the // HTTP header named by cluster_header from the request headers. If the // header is not found or the referenced cluster does not exist, Envoy will // return a 404 response. // // .. attention:: // // Internally, Envoy always uses the HTTP/2 ``:authority`` header to represent the HTTP/1 // ``Host`` header. Thus, if attempting to match on ``Host``, match on ``:authority`` instead. // // .. note:: // // If the header appears multiple times only the first value is used. string cluster_header = 12 [ (validate.rules).string = {well_known_regex: HTTP_HEADER_NAME strict: false}, (udpa.annotations.field_migrate).oneof_promotion = "cluster_specifier" ]; // The weight of the cluster. This value is relative to the other clusters' // weights. When a request matches the route, the choice of an upstream cluster // is determined by its weight. The sum of weights across all // entries in the clusters array must be greater than 0. google.protobuf.UInt32Value weight = 2; // Optional endpoint metadata match criteria used by the subset load balancer. Only endpoints in // the upstream cluster with metadata matching what is set in this field will be considered for // load balancing. Note that this will be merged with what's provided in // :ref:`RouteAction.metadata_match `, with // values here taking precedence. The filter name should be specified as ``envoy.lb``. core.v3.Metadata metadata_match = 3; // Specifies a list of headers to be added to requests when this cluster is selected // through the enclosing :ref:`envoy_v3_api_msg_config.route.v3.RouteAction`. // Headers specified at this level are applied before headers from the enclosing // :ref:`envoy_v3_api_msg_config.route.v3.Route`, :ref:`envoy_v3_api_msg_config.route.v3.VirtualHost`, and // :ref:`envoy_v3_api_msg_config.route.v3.RouteConfiguration`. For more information, including details on // header value syntax, see the documentation on :ref:`custom request headers // `. repeated core.v3.HeaderValueOption request_headers_to_add = 4 [(validate.rules).repeated = {max_items: 1000}]; // Specifies a list of HTTP headers that should be removed from each request when // this cluster is selected through the enclosing :ref:`envoy_v3_api_msg_config.route.v3.RouteAction`. repeated string request_headers_to_remove = 9 [(validate.rules).repeated = { items {string {well_known_regex: HTTP_HEADER_NAME strict: false}} }]; // Specifies a list of headers to be added to responses when this cluster is selected // through the enclosing :ref:`envoy_v3_api_msg_config.route.v3.RouteAction`. // Headers specified at this level are applied before headers from the enclosing // :ref:`envoy_v3_api_msg_config.route.v3.Route`, :ref:`envoy_v3_api_msg_config.route.v3.VirtualHost`, and // :ref:`envoy_v3_api_msg_config.route.v3.RouteConfiguration`. For more information, including details on // header value syntax, see the documentation on :ref:`custom request headers // `. repeated core.v3.HeaderValueOption response_headers_to_add = 5 [(validate.rules).repeated = {max_items: 1000}]; // Specifies a list of headers to be removed from responses when this cluster is selected // through the enclosing :ref:`envoy_v3_api_msg_config.route.v3.RouteAction`. repeated string response_headers_to_remove = 6 [(validate.rules).repeated = { items {string {well_known_regex: HTTP_HEADER_NAME strict: false}} }]; // The per_filter_config field can be used to provide weighted cluster-specific configurations // for filters. // The key should match the :ref:`filter config name // `. // The canonical filter name (e.g., ``envoy.filters.http.buffer`` for the HTTP buffer filter) can also // be used for the backwards compatibility. If there is no entry referred by the filter config name, the // entry referred by the canonical filter name will be provided to the filters as fallback. // // Use of this field is filter specific; // see the :ref:`HTTP filter documentation ` for if and how it is utilized. // [#comment: An entry's value may be wrapped in a // :ref:`FilterConfig` // message to specify additional options.] map typed_per_filter_config = 10; oneof host_rewrite_specifier { // Indicates that during forwarding, the host header will be swapped with // this value. string host_rewrite_literal = 11 [(validate.rules).string = {well_known_regex: HTTP_HEADER_VALUE strict: false}]; } } // Specifies one or more upstream clusters associated with the route. repeated ClusterWeight clusters = 1 [(validate.rules).repeated = {min_items: 1}]; // Specifies the total weight across all clusters. The sum of all cluster weights must equal this // value, if this is greater than 0. // This field is now deprecated, and the client will use the sum of all // cluster weights. It is up to the management server to supply the correct weights. google.protobuf.UInt32Value total_weight = 3 [deprecated = true, (envoy.annotations.deprecated_at_minor_version) = "3.0"]; // Specifies the runtime key prefix that should be used to construct the // runtime keys associated with each cluster. When the ``runtime_key_prefix`` is // specified, the router will look for weights associated with each upstream // cluster under the key ``runtime_key_prefix`` + ``.`` + ``cluster[i].name`` where // ``cluster[i]`` denotes an entry in the clusters array field. If the runtime // key for the cluster does not exist, the value specified in the // configuration file will be used as the default weight. See the :ref:`runtime documentation // ` for how key names map to the underlying implementation. string runtime_key_prefix = 2; oneof random_value_specifier { // Specifies the header name that is used to look up the random value passed in the request header. // This is used to ensure consistent cluster picking across multiple proxy levels for weighted traffic. // If header is not present or invalid, Envoy will fall back to use the internally generated random value. // This header is expected to be single-valued header as we only want to have one selected value throughout // the process for the consistency. And the value is a unsigned number between 0 and UINT64_MAX. string header_name = 4 [(validate.rules).string = {well_known_regex: HTTP_HEADER_NAME strict: false}]; } } // Configuration for a cluster specifier plugin. message ClusterSpecifierPlugin { // The name of the plugin and its opaque configuration. core.v3.TypedExtensionConfig extension = 1 [(validate.rules).message = {required: true}]; // If is_optional is not set or is set to false and the plugin defined by this message is not a // supported type, the containing resource is NACKed. If is_optional is set to true, the resource // would not be NACKed for this reason. In this case, routes referencing this plugin's name would // not be treated as an illegal configuration, but would result in a failure if the route is // selected. bool is_optional = 2; } // [#next-free-field: 16] message RouteMatch { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RouteMatch"; message GrpcRouteMatchOptions { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RouteMatch.GrpcRouteMatchOptions"; } message TlsContextMatchOptions { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RouteMatch.TlsContextMatchOptions"; // If specified, the route will match against whether or not a certificate is presented. // If not specified, certificate presentation status (true or false) will not be considered when route matching. google.protobuf.BoolValue presented = 1; // If specified, the route will match against whether or not a certificate is validated. // If not specified, certificate validation status (true or false) will not be considered when route matching. google.protobuf.BoolValue validated = 2; } // An extensible message for matching CONNECT requests. message ConnectMatcher { } reserved 5, 3; reserved "regex"; oneof path_specifier { option (validate.required) = true; // If specified, the route is a prefix rule meaning that the prefix must // match the beginning of the ``:path`` header. string prefix = 1; // If specified, the route is an exact path rule meaning that the path must // exactly match the ``:path`` header once the query string is removed. string path = 2; // If specified, the route is a regular expression rule meaning that the // regex must match the ``:path`` header once the query string is removed. The entire path // (without the query string) must match the regex. The rule will not match if only a // subsequence of the ``:path`` header matches the regex. // // [#next-major-version: In the v3 API we should redo how path specification works such // that we utilize StringMatcher, and additionally have consistent options around whether we // strip query strings, do a case sensitive match, etc. In the interim it will be too disruptive // to deprecate the existing options. We should even consider whether we want to do away with // path_specifier entirely and just rely on a set of header matchers which can already match // on :path, etc. The issue with that is it is unclear how to generically deal with query string // stripping. This needs more thought.] type.matcher.v3.RegexMatcher safe_regex = 10 [(validate.rules).message = {required: true}]; // If this is used as the matcher, the matcher will only match CONNECT requests. // Note that this will not match HTTP/2 upgrade-style CONNECT requests // (WebSocket and the like) as they are normalized in Envoy as HTTP/1.1 style // upgrades. // This is the only way to match CONNECT requests for HTTP/1.1. For HTTP/2, // where Extended CONNECT requests may have a path, the path matchers will work if // there is a path present. // Note that CONNECT support is currently considered alpha in Envoy. // [#comment: TODO(htuch): Replace the above comment with an alpha tag.] ConnectMatcher connect_matcher = 12; // If specified, the route is a path-separated prefix rule meaning that the // ``:path`` header (without the query string) must either exactly match the // ``path_separated_prefix`` or have it as a prefix, followed by ``/`` // // For example, ``/api/dev`` would match // ``/api/dev``, ``/api/dev/``, ``/api/dev/v1``, and ``/api/dev?param=true`` // but would not match ``/api/developer`` // // Expect the value to not contain ``?`` or ``#`` and not to end in ``/`` string path_separated_prefix = 14 [(validate.rules).string = {pattern: "^[^?#]+[^?#/]$"}]; // [#extension-category: envoy.path.match] core.v3.TypedExtensionConfig path_match_policy = 15; } // Indicates that prefix/path matching should be case sensitive. The default // is true. Ignored for safe_regex matching. google.protobuf.BoolValue case_sensitive = 4; // Indicates that the route should additionally match on a runtime key. Every time the route // is considered for a match, it must also fall under the percentage of matches indicated by // this field. For some fraction N/D, a random number in the range [0,D) is selected. If the // number is <= the value of the numerator N, or if the key is not present, the default // value, the router continues to evaluate the remaining match criteria. A runtime_fraction // route configuration can be used to roll out route changes in a gradual manner without full // code/config deploys. Refer to the :ref:`traffic shifting // ` docs for additional documentation. // // .. note:: // // Parsing this field is implemented such that the runtime key's data may be represented // as a FractionalPercent proto represented as JSON/YAML and may also be represented as an // integer with the assumption that the value is an integral percentage out of 100. For // instance, a runtime key lookup returning the value "42" would parse as a FractionalPercent // whose numerator is 42 and denominator is HUNDRED. This preserves legacy semantics. core.v3.RuntimeFractionalPercent runtime_fraction = 9; // Specifies a set of headers that the route should match on. The router will // check the request’s headers against all the specified headers in the route // config. A match will happen if all the headers in the route are present in // the request with the same values (or based on presence if the value field // is not in the config). repeated HeaderMatcher headers = 6; // Specifies a set of URL query parameters on which the route should // match. The router will check the query string from the ``path`` header // against all the specified query parameters. If the number of specified // query parameters is nonzero, they all must match the ``path`` header's // query string for a match to occur. // // .. note:: // // If query parameters are used to pass request message fields when // `grpc_json_transcoder `_ // is used, the transcoded message fields maybe different. The query parameters are // url encoded, but the message fields are not. For example, if a query // parameter is "foo%20bar", the message field will be "foo bar". repeated QueryParameterMatcher query_parameters = 7; // If specified, only gRPC requests will be matched. The router will check // that the content-type header has a application/grpc or one of the various // application/grpc+ values. GrpcRouteMatchOptions grpc = 8; // If specified, the client tls context will be matched against the defined // match options. // // [#next-major-version: unify with RBAC] TlsContextMatchOptions tls_context = 11; // Specifies a set of dynamic metadata matchers on which the route should match. // The router will check the dynamic metadata against all the specified dynamic metadata matchers. // If the number of specified dynamic metadata matchers is nonzero, they all must match the // dynamic metadata for a match to occur. repeated type.matcher.v3.MetadataMatcher dynamic_metadata = 13; } // Cors policy configuration. // // .. attention:: // // This message has been deprecated. Please use // :ref:`CorsPolicy in filter extension ` // as as alternative. // // [#next-free-field: 13] message CorsPolicy { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.CorsPolicy"; reserved 1, 8, 7; reserved "allow_origin", "allow_origin_regex", "enabled"; // Specifies string patterns that match allowed origins. An origin is allowed if any of the // string matchers match. repeated type.matcher.v3.StringMatcher allow_origin_string_match = 11; // Specifies the content for the ``access-control-allow-methods`` header. string allow_methods = 2; // Specifies the content for the ``access-control-allow-headers`` header. string allow_headers = 3; // Specifies the content for the ``access-control-expose-headers`` header. string expose_headers = 4; // Specifies the content for the ``access-control-max-age`` header. string max_age = 5; // Specifies whether the resource allows credentials. google.protobuf.BoolValue allow_credentials = 6; oneof enabled_specifier { // Specifies the % of requests for which the CORS filter is enabled. // // If neither ``enabled``, ``filter_enabled``, nor ``shadow_enabled`` are specified, the CORS // filter will be enabled for 100% of the requests. // // If :ref:`runtime_key ` is // specified, Envoy will lookup the runtime key to get the percentage of requests to filter. core.v3.RuntimeFractionalPercent filter_enabled = 9; } // Specifies the % of requests for which the CORS policies will be evaluated and tracked, but not // enforced. // // This field is intended to be used when ``filter_enabled`` and ``enabled`` are off. One of those // fields have to explicitly disable the filter in order for this setting to take effect. // // If :ref:`runtime_key ` is specified, // Envoy will lookup the runtime key to get the percentage of requests for which it will evaluate // and track the request's ``Origin`` to determine if it's valid but will not enforce any policies. core.v3.RuntimeFractionalPercent shadow_enabled = 10; // Specify whether allow requests whose target server's IP address is more private than that from // which the request initiator was fetched. // // More details refer to https://developer.chrome.com/blog/private-network-access-preflight. google.protobuf.BoolValue allow_private_network_access = 12; } // [#next-free-field: 42] message RouteAction { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RouteAction"; enum ClusterNotFoundResponseCode { // HTTP status code - 503 Service Unavailable. SERVICE_UNAVAILABLE = 0; // HTTP status code - 404 Not Found. NOT_FOUND = 1; // HTTP status code - 500 Internal Server Error. INTERNAL_SERVER_ERROR = 2; } // Configures :ref:`internal redirect ` behavior. // [#next-major-version: remove this definition - it's defined in the InternalRedirectPolicy message.] enum InternalRedirectAction { option deprecated = true; PASS_THROUGH_INTERNAL_REDIRECT = 0; HANDLE_INTERNAL_REDIRECT = 1; } // The router is capable of shadowing traffic from one cluster to another. The current // implementation is "fire and forget," meaning Envoy will not wait for the shadow cluster to // respond before returning the response from the primary cluster. All normal statistics are // collected for the shadow cluster making this feature useful for testing. // // During shadowing, the host/authority header is altered such that ``-shadow`` is appended. This is // useful for logging. For example, ``cluster1`` becomes ``cluster1-shadow``. // // .. note:: // // Shadowing will not be triggered if the primary cluster does not exist. // // .. note:: // // Shadowing doesn't support Http CONNECT and upgrades. // [#next-free-field: 6] message RequestMirrorPolicy { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RouteAction.RequestMirrorPolicy"; reserved 2; reserved "runtime_key"; // Only one of ``cluster`` and ``cluster_header`` can be specified. // [#next-major-version: Need to add back the validation rule: (validate.rules).string = {min_len: 1}] // Specifies the cluster that requests will be mirrored to. The cluster must // exist in the cluster manager configuration. string cluster = 1 [(udpa.annotations.field_migrate).oneof_promotion = "cluster_specifier"]; // Only one of ``cluster`` and ``cluster_header`` can be specified. // Envoy will determine the cluster to route to by reading the value of the // HTTP header named by cluster_header from the request headers. Only the first value in header is used, // and no shadow request will happen if the value is not found in headers. Envoy will not wait for // the shadow cluster to respond before returning the response from the primary cluster. // // .. attention:: // // Internally, Envoy always uses the HTTP/2 ``:authority`` header to represent the HTTP/1 // ``Host`` header. Thus, if attempting to match on ``Host``, match on ``:authority`` instead. // // .. note:: // // If the header appears multiple times only the first value is used. string cluster_header = 5 [ (validate.rules).string = {well_known_regex: HTTP_HEADER_NAME strict: false}, (udpa.annotations.field_migrate).oneof_promotion = "cluster_specifier" ]; // If not specified, all requests to the target cluster will be mirrored. // // If specified, this field takes precedence over the ``runtime_key`` field and requests must also // fall under the percentage of matches indicated by this field. // // For some fraction N/D, a random number in the range [0,D) is selected. If the // number is <= the value of the numerator N, or if the key is not present, the default // value, the request will be mirrored. core.v3.RuntimeFractionalPercent runtime_fraction = 3; // Determines if the trace span should be sampled. Defaults to true. google.protobuf.BoolValue trace_sampled = 4; } // Specifies the route's hashing policy if the upstream cluster uses a hashing :ref:`load balancer // `. // [#next-free-field: 7] message HashPolicy { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RouteAction.HashPolicy"; message Header { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RouteAction.HashPolicy.Header"; // The name of the request header that will be used to obtain the hash // key. If the request header is not present, no hash will be produced. string header_name = 1 [(validate.rules).string = {min_len: 1 well_known_regex: HTTP_HEADER_NAME strict: false}]; // If specified, the request header value will be rewritten and used // to produce the hash key. type.matcher.v3.RegexMatchAndSubstitute regex_rewrite = 2; } // Envoy supports two types of cookie affinity: // // 1. Passive. Envoy takes a cookie that's present in the cookies header and // hashes on its value. // // 2. Generated. Envoy generates and sets a cookie with an expiration (TTL) // on the first request from the client in its response to the client, // based on the endpoint the request gets sent to. The client then // presents this on the next and all subsequent requests. The hash of // this is sufficient to ensure these requests get sent to the same // endpoint. The cookie is generated by hashing the source and // destination ports and addresses so that multiple independent HTTP2 // streams on the same connection will independently receive the same // cookie, even if they arrive at the Envoy simultaneously. message Cookie { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RouteAction.HashPolicy.Cookie"; // The name of the cookie that will be used to obtain the hash key. If the // cookie is not present and ttl below is not set, no hash will be // produced. string name = 1 [(validate.rules).string = {min_len: 1}]; // If specified, a cookie with the TTL will be generated if the cookie is // not present. If the TTL is present and zero, the generated cookie will // be a session cookie. google.protobuf.Duration ttl = 2; // The name of the path for the cookie. If no path is specified here, no path // will be set for the cookie. string path = 3; } message ConnectionProperties { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RouteAction.HashPolicy.ConnectionProperties"; // Hash on source IP address. bool source_ip = 1; } message QueryParameter { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RouteAction.HashPolicy.QueryParameter"; // The name of the URL query parameter that will be used to obtain the hash // key. If the parameter is not present, no hash will be produced. Query // parameter names are case-sensitive. string name = 1 [(validate.rules).string = {min_len: 1}]; } message FilterState { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RouteAction.HashPolicy.FilterState"; // The name of the Object in the per-request filterState, which is an // Envoy::Hashable object. If there is no data associated with the key, // or the stored object is not Envoy::Hashable, no hash will be produced. string key = 1 [(validate.rules).string = {min_len: 1}]; } oneof policy_specifier { option (validate.required) = true; // Header hash policy. Header header = 1; // Cookie hash policy. Cookie cookie = 2; // Connection properties hash policy. ConnectionProperties connection_properties = 3; // Query parameter hash policy. QueryParameter query_parameter = 5; // Filter state hash policy. FilterState filter_state = 6; } // The flag that short-circuits the hash computing. This field provides a // 'fallback' style of configuration: "if a terminal policy doesn't work, // fallback to rest of the policy list", it saves time when the terminal // policy works. // // If true, and there is already a hash computed, ignore rest of the // list of hash polices. // For example, if the following hash methods are configured: // // ========= ======== // specifier terminal // ========= ======== // Header A true // Header B false // Header C false // ========= ======== // // The generateHash process ends if policy "header A" generates a hash, as // it's a terminal policy. bool terminal = 4; } // Allows enabling and disabling upgrades on a per-route basis. // This overrides any enabled/disabled upgrade filter chain specified in the // HttpConnectionManager // :ref:`upgrade_configs // ` // but does not affect any custom filter chain specified there. message UpgradeConfig { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RouteAction.UpgradeConfig"; // Configuration for sending data upstream as a raw data payload. This is used for // CONNECT or POST requests, when forwarding request payload as raw TCP. message ConnectConfig { // If present, the proxy protocol header will be prepended to the CONNECT payload sent upstream. core.v3.ProxyProtocolConfig proxy_protocol_config = 1; // If set, the route will also allow forwarding POST payload as raw TCP. bool allow_post = 2; } // The case-insensitive name of this upgrade, e.g. "websocket". // For each upgrade type present in upgrade_configs, requests with // Upgrade: [upgrade_type] will be proxied upstream. string upgrade_type = 1 [(validate.rules).string = {min_len: 1 well_known_regex: HTTP_HEADER_VALUE strict: false}]; // Determines if upgrades are available on this route. Defaults to true. google.protobuf.BoolValue enabled = 2; // Configuration for sending data upstream as a raw data payload. This is used for // CONNECT requests, when forwarding CONNECT payload as raw TCP. // Note that CONNECT support is currently considered alpha in Envoy. // [#comment: TODO(htuch): Replace the above comment with an alpha tag.] ConnectConfig connect_config = 3; } message MaxStreamDuration { // Specifies the maximum duration allowed for streams on the route. If not specified, the value // from the :ref:`max_stream_duration // ` field in // :ref:`HttpConnectionManager.common_http_protocol_options // ` // is used. If this field is set explicitly to zero, any // HttpConnectionManager max_stream_duration timeout will be disabled for // this route. google.protobuf.Duration max_stream_duration = 1; // If present, and the request contains a `grpc-timeout header // `_, use that value as the // ``max_stream_duration``, but limit the applied timeout to the maximum value specified here. // If set to 0, the ``grpc-timeout`` header is used without modification. google.protobuf.Duration grpc_timeout_header_max = 2; // If present, Envoy will adjust the timeout provided by the ``grpc-timeout`` header by // subtracting the provided duration from the header. This is useful for allowing Envoy to set // its global timeout to be less than that of the deadline imposed by the calling client, which // makes it more likely that Envoy will handle the timeout instead of having the call canceled // by the client. If, after applying the offset, the resulting timeout is zero or negative, // the stream will timeout immediately. google.protobuf.Duration grpc_timeout_header_offset = 3; } reserved 12, 18, 19, 16, 22, 21, 10; reserved "request_mirror_policy"; oneof cluster_specifier { option (validate.required) = true; // Indicates the upstream cluster to which the request should be routed // to. string cluster = 1 [(validate.rules).string = {min_len: 1}]; // Envoy will determine the cluster to route to by reading the value of the // HTTP header named by cluster_header from the request headers. If the // header is not found or the referenced cluster does not exist, Envoy will // return a 404 response. // // .. attention:: // // Internally, Envoy always uses the HTTP/2 ``:authority`` header to represent the HTTP/1 // ``Host`` header. Thus, if attempting to match on ``Host``, match on ``:authority`` instead. // // .. note:: // // If the header appears multiple times only the first value is used. string cluster_header = 2 [(validate.rules).string = {min_len: 1 well_known_regex: HTTP_HEADER_NAME strict: false}]; // Multiple upstream clusters can be specified for a given route. The // request is routed to one of the upstream clusters based on weights // assigned to each cluster. See // :ref:`traffic splitting ` // for additional documentation. WeightedCluster weighted_clusters = 3; // Name of the cluster specifier plugin to use to determine the cluster for requests on this route. // The cluster specifier plugin name must be defined in the associated // :ref:`cluster specifier plugins ` // in the :ref:`name ` field. string cluster_specifier_plugin = 37; // Custom cluster specifier plugin configuration to use to determine the cluster for requests // on this route. ClusterSpecifierPlugin inline_cluster_specifier_plugin = 39; } // The HTTP status code to use when configured cluster is not found. // The default response code is 503 Service Unavailable. ClusterNotFoundResponseCode cluster_not_found_response_code = 20 [(validate.rules).enum = {defined_only: true}]; // Optional endpoint metadata match criteria used by the subset load balancer. Only endpoints // in the upstream cluster with metadata matching what's set in this field will be considered // for load balancing. If using :ref:`weighted_clusters // `, metadata will be merged, with values // provided there taking precedence. The filter name should be specified as ``envoy.lb``. core.v3.Metadata metadata_match = 4; // Indicates that during forwarding, the matched prefix (or path) should be // swapped with this value. This option allows application URLs to be rooted // at a different path from those exposed at the reverse proxy layer. The router filter will // place the original path before rewrite into the :ref:`x-envoy-original-path // ` header. // // Only one of :ref:`regex_rewrite ` // :ref:`path_rewrite_policy `, // or :ref:`prefix_rewrite ` may be specified. // // .. attention:: // // Pay careful attention to the use of trailing slashes in the // :ref:`route's match ` prefix value. // Stripping a prefix from a path requires multiple Routes to handle all cases. For example, // rewriting ``/prefix`` to ``/`` and ``/prefix/etc`` to ``/etc`` cannot be done in a single // :ref:`Route `, as shown by the below config entries: // // .. code-block:: yaml // // - match: // prefix: "/prefix/" // route: // prefix_rewrite: "/" // - match: // prefix: "/prefix" // route: // prefix_rewrite: "/" // // Having above entries in the config, requests to ``/prefix`` will be stripped to ``/``, while // requests to ``/prefix/etc`` will be stripped to ``/etc``. string prefix_rewrite = 5 [(validate.rules).string = {well_known_regex: HTTP_HEADER_VALUE strict: false}]; // Indicates that during forwarding, portions of the path that match the // pattern should be rewritten, even allowing the substitution of capture // groups from the pattern into the new path as specified by the rewrite // substitution string. This is useful to allow application paths to be // rewritten in a way that is aware of segments with variable content like // identifiers. The router filter will place the original path as it was // before the rewrite into the :ref:`x-envoy-original-path // ` header. // // Only one of :ref:`regex_rewrite `, // :ref:`prefix_rewrite `, or // :ref:`path_rewrite_policy `] // may be specified. // // Examples using Google's `RE2 `_ engine: // // * The path pattern ``^/service/([^/]+)(/.*)$`` paired with a substitution // string of ``\2/instance/\1`` would transform ``/service/foo/v1/api`` // into ``/v1/api/instance/foo``. // // * The pattern ``one`` paired with a substitution string of ``two`` would // transform ``/xxx/one/yyy/one/zzz`` into ``/xxx/two/yyy/two/zzz``. // // * The pattern ``^(.*?)one(.*)$`` paired with a substitution string of // ``\1two\2`` would replace only the first occurrence of ``one``, // transforming path ``/xxx/one/yyy/one/zzz`` into ``/xxx/two/yyy/one/zzz``. // // * The pattern ``(?i)/xxx/`` paired with a substitution string of ``/yyy/`` // would do a case-insensitive match and transform path ``/aaa/XxX/bbb`` to // ``/aaa/yyy/bbb``. type.matcher.v3.RegexMatchAndSubstitute regex_rewrite = 32; // [#extension-category: envoy.path.rewrite] core.v3.TypedExtensionConfig path_rewrite_policy = 41; oneof host_rewrite_specifier { // Indicates that during forwarding, the host header will be swapped with // this value. Using this option will append the // :ref:`config_http_conn_man_headers_x-forwarded-host` header if // :ref:`append_x_forwarded_host ` // is set. string host_rewrite_literal = 6 [(validate.rules).string = {well_known_regex: HTTP_HEADER_VALUE strict: false}]; // Indicates that during forwarding, the host header will be swapped with // the hostname of the upstream host chosen by the cluster manager. This // option is applicable only when the destination cluster for a route is of // type ``strict_dns`` or ``logical_dns``. Setting this to true with other cluster types // has no effect. Using this option will append the // :ref:`config_http_conn_man_headers_x-forwarded-host` header if // :ref:`append_x_forwarded_host ` // is set. google.protobuf.BoolValue auto_host_rewrite = 7; // Indicates that during forwarding, the host header will be swapped with the content of given // downstream or :ref:`custom ` header. // If header value is empty, host header is left intact. Using this option will append the // :ref:`config_http_conn_man_headers_x-forwarded-host` header if // :ref:`append_x_forwarded_host ` // is set. // // .. attention:: // // Pay attention to the potential security implications of using this option. Provided header // must come from trusted source. // // .. note:: // // If the header appears multiple times only the first value is used. string host_rewrite_header = 29 [(validate.rules).string = {well_known_regex: HTTP_HEADER_NAME strict: false}]; // Indicates that during forwarding, the host header will be swapped with // the result of the regex substitution executed on path value with query and fragment removed. // This is useful for transitioning variable content between path segment and subdomain. // Using this option will append the // :ref:`config_http_conn_man_headers_x-forwarded-host` header if // :ref:`append_x_forwarded_host ` // is set. // // For example with the following config: // // .. code-block:: yaml // // host_rewrite_path_regex: // pattern: // google_re2: {} // regex: "^/(.+)/.+$" // substitution: \1 // // Would rewrite the host header to ``envoyproxy.io`` given the path ``/envoyproxy.io/some/path``. type.matcher.v3.RegexMatchAndSubstitute host_rewrite_path_regex = 35; } // If set, then a host rewrite action (one of // :ref:`host_rewrite_literal `, // :ref:`auto_host_rewrite `, // :ref:`host_rewrite_header `, or // :ref:`host_rewrite_path_regex `) // causes the original value of the host header, if any, to be appended to the // :ref:`config_http_conn_man_headers_x-forwarded-host` HTTP header. bool append_x_forwarded_host = 38; // Specifies the upstream timeout for the route. If not specified, the default is 15s. This // spans between the point at which the entire downstream request (i.e. end-of-stream) has been // processed and when the upstream response has been completely processed. A value of 0 will // disable the route's timeout. // // .. note:: // // This timeout includes all retries. See also // :ref:`config_http_filters_router_x-envoy-upstream-rq-timeout-ms`, // :ref:`config_http_filters_router_x-envoy-upstream-rq-per-try-timeout-ms`, and the // :ref:`retry overview `. google.protobuf.Duration timeout = 8; // Specifies the idle timeout for the route. If not specified, there is no per-route idle timeout, // although the connection manager wide :ref:`stream_idle_timeout // ` // will still apply. A value of 0 will completely disable the route's idle timeout, even if a // connection manager stream idle timeout is configured. // // The idle timeout is distinct to :ref:`timeout // `, which provides an upper bound // on the upstream response time; :ref:`idle_timeout // ` instead bounds the amount // of time the request's stream may be idle. // // After header decoding, the idle timeout will apply on downstream and // upstream request events. Each time an encode/decode event for headers or // data is processed for the stream, the timer will be reset. If the timeout // fires, the stream is terminated with a 408 Request Timeout error code if no // upstream response header has been received, otherwise a stream reset // occurs. // // If the :ref:`overload action ` "envoy.overload_actions.reduce_timeouts" // is configured, this timeout is scaled according to the value for // :ref:`HTTP_DOWNSTREAM_STREAM_IDLE `. google.protobuf.Duration idle_timeout = 24; // Specifies how to send request over TLS early data. // If absent, allows `safe HTTP requests `_ to be sent on early data. // [#extension-category: envoy.route.early_data_policy] core.v3.TypedExtensionConfig early_data_policy = 40; // Indicates that the route has a retry policy. Note that if this is set, // it'll take precedence over the virtual host level retry policy entirely // (e.g.: policies are not merged, most internal one becomes the enforced policy). RetryPolicy retry_policy = 9; // [#not-implemented-hide:] // Specifies the configuration for retry policy extension. Note that if this is set, it'll take // precedence over the virtual host level retry policy entirely (e.g.: policies are not merged, // most internal one becomes the enforced policy). :ref:`Retry policy ` // should not be set if this field is used. google.protobuf.Any retry_policy_typed_config = 33; // Specify a set of route request mirroring policies. // It takes precedence over the virtual host and route config mirror policy entirely. // That is, policies are not merged, the most specific non-empty one becomes the mirror policies. repeated RequestMirrorPolicy request_mirror_policies = 30; // Optionally specifies the :ref:`routing priority `. core.v3.RoutingPriority priority = 11 [(validate.rules).enum = {defined_only: true}]; // Specifies a set of rate limit configurations that could be applied to the // route. repeated RateLimit rate_limits = 13; // Specifies if the rate limit filter should include the virtual host rate // limits. By default, if the route configured rate limits, the virtual host // :ref:`rate_limits ` are not applied to the // request. // // This field is deprecated. Please use :ref:`vh_rate_limits ` google.protobuf.BoolValue include_vh_rate_limits = 14 [deprecated = true, (envoy.annotations.deprecated_at_minor_version) = "3.0"]; // Specifies a list of hash policies to use for ring hash load balancing. Each // hash policy is evaluated individually and the combined result is used to // route the request. The method of combination is deterministic such that // identical lists of hash policies will produce the same hash. Since a hash // policy examines specific parts of a request, it can fail to produce a hash // (i.e. if the hashed header is not present). If (and only if) all configured // hash policies fail to generate a hash, no hash will be produced for // the route. In this case, the behavior is the same as if no hash policies // were specified (i.e. the ring hash load balancer will choose a random // backend). If a hash policy has the "terminal" attribute set to true, and // there is already a hash generated, the hash is returned immediately, // ignoring the rest of the hash policy list. repeated HashPolicy hash_policy = 15; // Indicates that the route has a CORS policy. This field is ignored if related cors policy is // found in the :ref:`Route.typed_per_filter_config` or // :ref:`WeightedCluster.ClusterWeight.typed_per_filter_config`. // // .. attention:: // // This option has been deprecated. Please use // :ref:`Route.typed_per_filter_config` or // :ref:`WeightedCluster.ClusterWeight.typed_per_filter_config` // to configure the CORS HTTP filter. CorsPolicy cors = 17 [deprecated = true, (envoy.annotations.deprecated_at_minor_version) = "3.0"]; // Deprecated by :ref:`grpc_timeout_header_max ` // If present, and the request is a gRPC request, use the // `grpc-timeout header `_, // or its default value (infinity) instead of // :ref:`timeout `, but limit the applied timeout // to the maximum value specified here. If configured as 0, the maximum allowed timeout for // gRPC requests is infinity. If not configured at all, the ``grpc-timeout`` header is not used // and gRPC requests time out like any other requests using // :ref:`timeout ` or its default. // This can be used to prevent unexpected upstream request timeouts due to potentially long // time gaps between gRPC request and response in gRPC streaming mode. // // .. note:: // // If a timeout is specified using :ref:`config_http_filters_router_x-envoy-upstream-rq-timeout-ms`, it takes // precedence over `grpc-timeout header `_, when // both are present. See also // :ref:`config_http_filters_router_x-envoy-upstream-rq-timeout-ms`, // :ref:`config_http_filters_router_x-envoy-upstream-rq-per-try-timeout-ms`, and the // :ref:`retry overview `. google.protobuf.Duration max_grpc_timeout = 23 [deprecated = true, (envoy.annotations.deprecated_at_minor_version) = "3.0"]; // Deprecated by :ref:`grpc_timeout_header_offset `. // If present, Envoy will adjust the timeout provided by the ``grpc-timeout`` header by subtracting // the provided duration from the header. This is useful in allowing Envoy to set its global // timeout to be less than that of the deadline imposed by the calling client, which makes it more // likely that Envoy will handle the timeout instead of having the call canceled by the client. // The offset will only be applied if the provided grpc_timeout is greater than the offset. This // ensures that the offset will only ever decrease the timeout and never set it to 0 (meaning // infinity). google.protobuf.Duration grpc_timeout_offset = 28 [deprecated = true, (envoy.annotations.deprecated_at_minor_version) = "3.0"]; repeated UpgradeConfig upgrade_configs = 25; // If present, Envoy will try to follow an upstream redirect response instead of proxying the // response back to the downstream. An upstream redirect response is defined // by :ref:`redirect_response_codes // `. InternalRedirectPolicy internal_redirect_policy = 34; InternalRedirectAction internal_redirect_action = 26 [deprecated = true, (envoy.annotations.deprecated_at_minor_version) = "3.0"]; // An internal redirect is handled, iff the number of previous internal redirects that a // downstream request has encountered is lower than this value, and // :ref:`internal_redirect_action ` // is set to :ref:`HANDLE_INTERNAL_REDIRECT // ` // In the case where a downstream request is bounced among multiple routes by internal redirect, // the first route that hits this threshold, or has // :ref:`internal_redirect_action ` // set to // :ref:`PASS_THROUGH_INTERNAL_REDIRECT // ` // will pass the redirect back to downstream. // // If not specified, at most one redirect will be followed. google.protobuf.UInt32Value max_internal_redirects = 31 [deprecated = true, (envoy.annotations.deprecated_at_minor_version) = "3.0"]; // Indicates that the route has a hedge policy. Note that if this is set, // it'll take precedence over the virtual host level hedge policy entirely // (e.g.: policies are not merged, most internal one becomes the enforced policy). HedgePolicy hedge_policy = 27; // Specifies the maximum stream duration for this route. MaxStreamDuration max_stream_duration = 36; } // HTTP retry :ref:`architecture overview `. // [#next-free-field: 14] message RetryPolicy { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RetryPolicy"; enum ResetHeaderFormat { SECONDS = 0; UNIX_TIMESTAMP = 1; } message RetryPriority { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RetryPolicy.RetryPriority"; reserved 2; reserved "config"; string name = 1 [(validate.rules).string = {min_len: 1}]; // [#extension-category: envoy.retry_priorities] oneof config_type { google.protobuf.Any typed_config = 3; } } message RetryHostPredicate { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RetryPolicy.RetryHostPredicate"; reserved 2; reserved "config"; string name = 1 [(validate.rules).string = {min_len: 1}]; // [#extension-category: envoy.retry_host_predicates] oneof config_type { google.protobuf.Any typed_config = 3; } } message RetryBackOff { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RetryPolicy.RetryBackOff"; // Specifies the base interval between retries. This parameter is required and must be greater // than zero. Values less than 1 ms are rounded up to 1 ms. // See :ref:`config_http_filters_router_x-envoy-max-retries` for a discussion of Envoy's // back-off algorithm. google.protobuf.Duration base_interval = 1 [(validate.rules).duration = { required: true gt {} }]; // Specifies the maximum interval between retries. This parameter is optional, but must be // greater than or equal to the ``base_interval`` if set. The default is 10 times the // ``base_interval``. See :ref:`config_http_filters_router_x-envoy-max-retries` for a discussion // of Envoy's back-off algorithm. google.protobuf.Duration max_interval = 2 [(validate.rules).duration = {gt {}}]; } message ResetHeader { // The name of the reset header. // // .. note:: // // If the header appears multiple times only the first value is used. string name = 1 [(validate.rules).string = {min_len: 1 well_known_regex: HTTP_HEADER_NAME strict: false}]; // The format of the reset header. ResetHeaderFormat format = 2 [(validate.rules).enum = {defined_only: true}]; } // A retry back-off strategy that applies when the upstream server rate limits // the request. // // Given this configuration: // // .. code-block:: yaml // // rate_limited_retry_back_off: // reset_headers: // - name: Retry-After // format: SECONDS // - name: X-RateLimit-Reset // format: UNIX_TIMESTAMP // max_interval: "300s" // // The following algorithm will apply: // // 1. If the response contains the header ``Retry-After`` its value must be on // the form ``120`` (an integer that represents the number of seconds to // wait before retrying). If so, this value is used as the back-off interval. // 2. Otherwise, if the response contains the header ``X-RateLimit-Reset`` its // value must be on the form ``1595320702`` (an integer that represents the // point in time at which to retry, as a Unix timestamp in seconds). If so, // the current time is subtracted from this value and the result is used as // the back-off interval. // 3. Otherwise, Envoy will use the default // :ref:`exponential back-off ` // strategy. // // No matter which format is used, if the resulting back-off interval exceeds // ``max_interval`` it is discarded and the next header in ``reset_headers`` // is tried. If a request timeout is configured for the route it will further // limit how long the request will be allowed to run. // // To prevent many clients retrying at the same point in time jitter is added // to the back-off interval, so the resulting interval is decided by taking: // ``random(interval, interval * 1.5)``. // // .. attention:: // // Configuring ``rate_limited_retry_back_off`` will not by itself cause a request // to be retried. You will still need to configure the right retry policy to match // the responses from the upstream server. message RateLimitedRetryBackOff { // Specifies the reset headers (like ``Retry-After`` or ``X-RateLimit-Reset``) // to match against the response. Headers are tried in order, and matched case // insensitive. The first header to be parsed successfully is used. If no headers // match the default exponential back-off is used instead. repeated ResetHeader reset_headers = 1 [(validate.rules).repeated = {min_items: 1}]; // Specifies the maximum back off interval that Envoy will allow. If a reset // header contains an interval longer than this then it will be discarded and // the next header will be tried. Defaults to 300 seconds. google.protobuf.Duration max_interval = 2 [(validate.rules).duration = {gt {}}]; } // Specifies the conditions under which retry takes place. These are the same // conditions documented for :ref:`config_http_filters_router_x-envoy-retry-on` and // :ref:`config_http_filters_router_x-envoy-retry-grpc-on`. string retry_on = 1; // Specifies the allowed number of retries. This parameter is optional and // defaults to 1. These are the same conditions documented for // :ref:`config_http_filters_router_x-envoy-max-retries`. google.protobuf.UInt32Value num_retries = 2 [(udpa.annotations.field_migrate).rename = "max_retries"]; // Specifies a non-zero upstream timeout per retry attempt (including the initial attempt). This // parameter is optional. The same conditions documented for // :ref:`config_http_filters_router_x-envoy-upstream-rq-per-try-timeout-ms` apply. // // .. note:: // // If left unspecified, Envoy will use the global // :ref:`route timeout ` for the request. // Consequently, when using a :ref:`5xx ` based // retry policy, a request that times out will not be retried as the total timeout budget // would have been exhausted. google.protobuf.Duration per_try_timeout = 3; // Specifies an upstream idle timeout per retry attempt (including the initial attempt). This // parameter is optional and if absent there is no per try idle timeout. The semantics of the per // try idle timeout are similar to the // :ref:`route idle timeout ` and // :ref:`stream idle timeout // ` // both enforced by the HTTP connection manager. The difference is that this idle timeout // is enforced by the router for each individual attempt and thus after all previous filters have // run, as opposed to *before* all previous filters run for the other idle timeouts. This timeout // is useful in cases in which total request timeout is bounded by a number of retries and a // :ref:`per_try_timeout `, but // there is a desire to ensure each try is making incremental progress. Note also that similar // to :ref:`per_try_timeout `, // this idle timeout does not start until after both the entire request has been received by the // router *and* a connection pool connection has been obtained. Unlike // :ref:`per_try_timeout `, // the idle timer continues once the response starts streaming back to the downstream client. // This ensures that response data continues to make progress without using one of the HTTP // connection manager idle timeouts. google.protobuf.Duration per_try_idle_timeout = 13; // Specifies an implementation of a RetryPriority which is used to determine the // distribution of load across priorities used for retries. Refer to // :ref:`retry plugin configuration ` for more details. RetryPriority retry_priority = 4; // Specifies a collection of RetryHostPredicates that will be consulted when selecting a host // for retries. If any of the predicates reject the host, host selection will be reattempted. // Refer to :ref:`retry plugin configuration ` for more // details. repeated RetryHostPredicate retry_host_predicate = 5; // Retry options predicates that will be applied prior to retrying a request. These predicates // allow customizing request behavior between retries. // [#comment: add [#extension-category: envoy.retry_options_predicates] when there are built-in extensions] repeated core.v3.TypedExtensionConfig retry_options_predicates = 12; // The maximum number of times host selection will be reattempted before giving up, at which // point the host that was last selected will be routed to. If unspecified, this will default to // retrying once. int64 host_selection_retry_max_attempts = 6; // HTTP status codes that should trigger a retry in addition to those specified by retry_on. repeated uint32 retriable_status_codes = 7; // Specifies parameters that control exponential retry back off. This parameter is optional, in which case the // default base interval is 25 milliseconds or, if set, the current value of the // ``upstream.base_retry_backoff_ms`` runtime parameter. The default maximum interval is 10 times // the base interval. The documentation for :ref:`config_http_filters_router_x-envoy-max-retries` // describes Envoy's back-off algorithm. RetryBackOff retry_back_off = 8; // Specifies parameters that control a retry back-off strategy that is used // when the request is rate limited by the upstream server. The server may // return a response header like ``Retry-After`` or ``X-RateLimit-Reset`` to // provide feedback to the client on how long to wait before retrying. If // configured, this back-off strategy will be used instead of the // default exponential back off strategy (configured using ``retry_back_off``) // whenever a response includes the matching headers. RateLimitedRetryBackOff rate_limited_retry_back_off = 11; // HTTP response headers that trigger a retry if present in the response. A retry will be // triggered if any of the header matches match the upstream response headers. // The field is only consulted if 'retriable-headers' retry policy is active. repeated HeaderMatcher retriable_headers = 9; // HTTP headers which must be present in the request for retries to be attempted. repeated HeaderMatcher retriable_request_headers = 10; } // HTTP request hedging :ref:`architecture overview `. message HedgePolicy { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.HedgePolicy"; // Specifies the number of initial requests that should be sent upstream. // Must be at least 1. // Defaults to 1. // [#not-implemented-hide:] google.protobuf.UInt32Value initial_requests = 1 [(validate.rules).uint32 = {gte: 1}]; // Specifies a probability that an additional upstream request should be sent // on top of what is specified by initial_requests. // Defaults to 0. // [#not-implemented-hide:] type.v3.FractionalPercent additional_request_chance = 2; // Indicates that a hedged request should be sent when the per-try timeout is hit. // This means that a retry will be issued without resetting the original request, leaving multiple upstream requests in flight. // The first request to complete successfully will be the one returned to the caller. // // * At any time, a successful response (i.e. not triggering any of the retry-on conditions) would be returned to the client. // * Before per-try timeout, an error response (per retry-on conditions) would be retried immediately or returned ot the client // if there are no more retries left. // * After per-try timeout, an error response would be discarded, as a retry in the form of a hedged request is already in progress. // // Note: For this to have effect, you must have a :ref:`RetryPolicy ` that retries at least // one error code and specifies a maximum number of retries. // // Defaults to false. bool hedge_on_per_try_timeout = 3; } // [#next-free-field: 10] message RedirectAction { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RedirectAction"; enum RedirectResponseCode { // Moved Permanently HTTP Status Code - 301. MOVED_PERMANENTLY = 0; // Found HTTP Status Code - 302. FOUND = 1; // See Other HTTP Status Code - 303. SEE_OTHER = 2; // Temporary Redirect HTTP Status Code - 307. TEMPORARY_REDIRECT = 3; // Permanent Redirect HTTP Status Code - 308. PERMANENT_REDIRECT = 4; } // When the scheme redirection take place, the following rules apply: // 1. If the source URI scheme is ``http`` and the port is explicitly // set to ``:80``, the port will be removed after the redirection // 2. If the source URI scheme is ``https`` and the port is explicitly // set to ``:443``, the port will be removed after the redirection oneof scheme_rewrite_specifier { // The scheme portion of the URL will be swapped with "https". bool https_redirect = 4; // The scheme portion of the URL will be swapped with this value. string scheme_redirect = 7; } // The host portion of the URL will be swapped with this value. string host_redirect = 1 [(validate.rules).string = {well_known_regex: HTTP_HEADER_VALUE strict: false}]; // The port value of the URL will be swapped with this value. uint32 port_redirect = 8; oneof path_rewrite_specifier { // The path portion of the URL will be swapped with this value. // Please note that query string in path_redirect will override the // request's query string and will not be stripped. // // For example, let's say we have the following routes: // // - match: { path: "/old-path-1" } // redirect: { path_redirect: "/new-path-1" } // - match: { path: "/old-path-2" } // redirect: { path_redirect: "/new-path-2", strip-query: "true" } // - match: { path: "/old-path-3" } // redirect: { path_redirect: "/new-path-3?foo=1", strip_query: "true" } // // 1. if request uri is "/old-path-1?bar=1", users will be redirected to "/new-path-1?bar=1" // 2. if request uri is "/old-path-2?bar=1", users will be redirected to "/new-path-2" // 3. if request uri is "/old-path-3?bar=1", users will be redirected to "/new-path-3?foo=1" string path_redirect = 2 [(validate.rules).string = {well_known_regex: HTTP_HEADER_VALUE strict: false}]; // Indicates that during redirection, the matched prefix (or path) // should be swapped with this value. This option allows redirect URLs be dynamically created // based on the request. // // .. attention:: // // Pay attention to the use of trailing slashes as mentioned in // :ref:`RouteAction's prefix_rewrite `. string prefix_rewrite = 5 [(validate.rules).string = {well_known_regex: HTTP_HEADER_VALUE strict: false}]; // Indicates that during redirect, portions of the path that match the // pattern should be rewritten, even allowing the substitution of capture // groups from the pattern into the new path as specified by the rewrite // substitution string. This is useful to allow application paths to be // rewritten in a way that is aware of segments with variable content like // identifiers. // // Examples using Google's `RE2 `_ engine: // // * The path pattern ``^/service/([^/]+)(/.*)$`` paired with a substitution // string of ``\2/instance/\1`` would transform ``/service/foo/v1/api`` // into ``/v1/api/instance/foo``. // // * The pattern ``one`` paired with a substitution string of ``two`` would // transform ``/xxx/one/yyy/one/zzz`` into ``/xxx/two/yyy/two/zzz``. // // * The pattern ``^(.*?)one(.*)$`` paired with a substitution string of // ``\1two\2`` would replace only the first occurrence of ``one``, // transforming path ``/xxx/one/yyy/one/zzz`` into ``/xxx/two/yyy/one/zzz``. // // * The pattern ``(?i)/xxx/`` paired with a substitution string of ``/yyy/`` // would do a case-insensitive match and transform path ``/aaa/XxX/bbb`` to // ``/aaa/yyy/bbb``. type.matcher.v3.RegexMatchAndSubstitute regex_rewrite = 9; } // The HTTP status code to use in the redirect response. The default response // code is MOVED_PERMANENTLY (301). RedirectResponseCode response_code = 3 [(validate.rules).enum = {defined_only: true}]; // Indicates that during redirection, the query portion of the URL will // be removed. Default value is false. bool strip_query = 6; } message DirectResponseAction { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.DirectResponseAction"; // Specifies the HTTP response status to be returned. uint32 status = 1 [(validate.rules).uint32 = {lt: 600 gte: 200}]; // Specifies the content of the response body. If this setting is omitted, // no body is included in the generated response. // // .. note:: // // Headers can be specified using ``response_headers_to_add`` in the enclosing // :ref:`envoy_v3_api_msg_config.route.v3.Route`, :ref:`envoy_v3_api_msg_config.route.v3.RouteConfiguration` or // :ref:`envoy_v3_api_msg_config.route.v3.VirtualHost`. core.v3.DataSource body = 2; } // [#not-implemented-hide:] message NonForwardingAction { } message Decorator { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.Decorator"; // The operation name associated with the request matched to this route. If tracing is // enabled, this information will be used as the span name reported for this request. // // .. note:: // // For ingress (inbound) requests, or egress (outbound) responses, this value may be overridden // by the :ref:`x-envoy-decorator-operation // ` header. string operation = 1 [(validate.rules).string = {min_len: 1}]; // Whether the decorated details should be propagated to the other party. The default is true. google.protobuf.BoolValue propagate = 2; } message Tracing { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.Tracing"; // Target percentage of requests managed by this HTTP connection manager that will be force // traced if the :ref:`x-client-trace-id ` // header is set. This field is a direct analog for the runtime variable // 'tracing.client_sampling' in the :ref:`HTTP Connection Manager // `. // Default: 100% type.v3.FractionalPercent client_sampling = 1; // Target percentage of requests managed by this HTTP connection manager that will be randomly // selected for trace generation, if not requested by the client or not forced. This field is // a direct analog for the runtime variable 'tracing.random_sampling' in the // :ref:`HTTP Connection Manager `. // Default: 100% type.v3.FractionalPercent random_sampling = 2; // Target percentage of requests managed by this HTTP connection manager that will be traced // after all other sampling checks have been applied (client-directed, force tracing, random // sampling). This field functions as an upper limit on the total configured sampling rate. For // instance, setting client_sampling to 100% but overall_sampling to 1% will result in only 1% // of client requests with the appropriate headers to be force traced. This field is a direct // analog for the runtime variable 'tracing.global_enabled' in the // :ref:`HTTP Connection Manager `. // Default: 100% type.v3.FractionalPercent overall_sampling = 3; // A list of custom tags with unique tag name to create tags for the active span. // It will take effect after merging with the :ref:`corresponding configuration // ` // configured in the HTTP connection manager. If two tags with the same name are configured // each in the HTTP connection manager and the route level, the one configured here takes // priority. repeated type.tracing.v3.CustomTag custom_tags = 4; } // A virtual cluster is a way of specifying a regex matching rule against // certain important endpoints such that statistics are generated explicitly for // the matched requests. The reason this is useful is that when doing // prefix/path matching Envoy does not always know what the application // considers to be an endpoint. Thus, it’s impossible for Envoy to generically // emit per endpoint statistics. However, often systems have highly critical // endpoints that they wish to get “perfect” statistics on. Virtual cluster // statistics are perfect in the sense that they are emitted on the downstream // side such that they include network level failures. // // Documentation for :ref:`virtual cluster statistics `. // // .. note:: // // Virtual clusters are a useful tool, but we do not recommend setting up a virtual cluster for // every application endpoint. This is both not easily maintainable and as well the matching and // statistics output are not free. message VirtualCluster { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.VirtualCluster"; reserved 1, 3; reserved "pattern", "method"; // Specifies a list of header matchers to use for matching requests. Each specified header must // match. The pseudo-headers ``:path`` and ``:method`` can be used to match the request path and // method, respectively. repeated HeaderMatcher headers = 4; // Specifies the name of the virtual cluster. The virtual cluster name as well // as the virtual host name are used when emitting statistics. The statistics are emitted by the // router filter and are documented :ref:`here `. string name = 2 [(validate.rules).string = {min_len: 1}]; } // Global rate limiting :ref:`architecture overview `. // Also applies to Local rate limiting :ref:`using descriptors `. message RateLimit { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RateLimit"; // [#next-free-field: 11] message Action { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RateLimit.Action"; // The following descriptor entry is appended to the descriptor: // // .. code-block:: cpp // // ("source_cluster", "") // // is derived from the :option:`--service-cluster` option. message SourceCluster { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RateLimit.Action.SourceCluster"; } // The following descriptor entry is appended to the descriptor: // // .. code-block:: cpp // // ("destination_cluster", "") // // Once a request matches against a route table rule, a routed cluster is determined by one of // the following :ref:`route table configuration ` // settings: // // * :ref:`cluster ` indicates the upstream cluster // to route to. // * :ref:`weighted_clusters ` // chooses a cluster randomly from a set of clusters with attributed weight. // * :ref:`cluster_header ` indicates which // header in the request contains the target cluster. message DestinationCluster { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RateLimit.Action.DestinationCluster"; } // The following descriptor entry is appended when a header contains a key that matches the // ``header_name``: // // .. code-block:: cpp // // ("", "") message RequestHeaders { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RateLimit.Action.RequestHeaders"; // The header name to be queried from the request headers. The header’s // value is used to populate the value of the descriptor entry for the // descriptor_key. string header_name = 1 [(validate.rules).string = {min_len: 1 well_known_regex: HTTP_HEADER_NAME strict: false}]; // The key to use in the descriptor entry. string descriptor_key = 2 [(validate.rules).string = {min_len: 1}]; // If set to true, Envoy skips the descriptor while calling rate limiting service // when header is not present in the request. By default it skips calling the // rate limiting service if this header is not present in the request. bool skip_if_absent = 3; } // The following descriptor entry is appended to the descriptor and is populated using the // trusted address from :ref:`x-forwarded-for `: // // .. code-block:: cpp // // ("remote_address", "") message RemoteAddress { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RateLimit.Action.RemoteAddress"; } // The following descriptor entry is appended to the descriptor and is populated using the // masked address from :ref:`x-forwarded-for `: // // .. code-block:: cpp // // ("masked_remote_address", "") message MaskedRemoteAddress { // Length of prefix mask len for IPv4 (e.g. 0, 32). // Defaults to 32 when unset. // For example, trusted address from x-forwarded-for is ``192.168.1.1``, // the descriptor entry is ("masked_remote_address", "192.168.1.1/32"); // if mask len is 24, the descriptor entry is ("masked_remote_address", "192.168.1.0/24"). google.protobuf.UInt32Value v4_prefix_mask_len = 1 [(validate.rules).uint32 = {lte: 32}]; // Length of prefix mask len for IPv6 (e.g. 0, 128). // Defaults to 128 when unset. // For example, trusted address from x-forwarded-for is ``2001:abcd:ef01:2345:6789:abcd:ef01:234``, // the descriptor entry is ("masked_remote_address", "2001:abcd:ef01:2345:6789:abcd:ef01:234/128"); // if mask len is 64, the descriptor entry is ("masked_remote_address", "2001:abcd:ef01:2345::/64"). google.protobuf.UInt32Value v6_prefix_mask_len = 2 [(validate.rules).uint32 = {lte: 128}]; } // The following descriptor entry is appended to the descriptor: // // .. code-block:: cpp // // ("generic_key", "") message GenericKey { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RateLimit.Action.GenericKey"; // The value to use in the descriptor entry. string descriptor_value = 1 [(validate.rules).string = {min_len: 1}]; // An optional key to use in the descriptor entry. If not set it defaults // to 'generic_key' as the descriptor key. string descriptor_key = 2; } // The following descriptor entry is appended to the descriptor: // // .. code-block:: cpp // // ("header_match", "") message HeaderValueMatch { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.RateLimit.Action.HeaderValueMatch"; // The key to use in the descriptor entry. Defaults to ``header_match``. string descriptor_key = 4; // The value to use in the descriptor entry. string descriptor_value = 1 [(validate.rules).string = {min_len: 1}]; // If set to true, the action will append a descriptor entry when the // request matches the headers. If set to false, the action will append a // descriptor entry when the request does not match the headers. The // default value is true. google.protobuf.BoolValue expect_match = 2; // Specifies a set of headers that the rate limit action should match // on. The action will check the request’s headers against all the // specified headers in the config. A match will happen if all the // headers in the config are present in the request with the same values // (or based on presence if the value field is not in the config). repeated HeaderMatcher headers = 3 [(validate.rules).repeated = {min_items: 1}]; } // The following descriptor entry is appended when the // :ref:`dynamic metadata ` contains a key value: // // .. code-block:: cpp // // ("", "") // // .. attention:: // This action has been deprecated in favor of the :ref:`metadata ` action message DynamicMetaData { // The key to use in the descriptor entry. string descriptor_key = 1 [(validate.rules).string = {min_len: 1}]; // Metadata struct that defines the key and path to retrieve the string value. A match will // only happen if the value in the dynamic metadata is of type string. type.metadata.v3.MetadataKey metadata_key = 2 [(validate.rules).message = {required: true}]; // An optional value to use if ``metadata_key`` is empty. If not set and // no value is present under the metadata_key then no descriptor is generated. string default_value = 3; } // The following descriptor entry is appended when the metadata contains a key value: // // .. code-block:: cpp // // ("", "") message MetaData { enum Source { // Query :ref:`dynamic metadata ` DYNAMIC = 0; // Query :ref:`route entry metadata ` ROUTE_ENTRY = 1; } // The key to use in the descriptor entry. string descriptor_key = 1 [(validate.rules).string = {min_len: 1}]; // Metadata struct that defines the key and path to retrieve the string value. A match will // only happen if the value in the metadata is of type string. type.metadata.v3.MetadataKey metadata_key = 2 [(validate.rules).message = {required: true}]; // An optional value to use if ``metadata_key`` is empty. If not set and // no value is present under the metadata_key then no descriptor is generated. string default_value = 3; // Source of metadata Source source = 4 [(validate.rules).enum = {defined_only: true}]; } oneof action_specifier { option (validate.required) = true; // Rate limit on source cluster. SourceCluster source_cluster = 1; // Rate limit on destination cluster. DestinationCluster destination_cluster = 2; // Rate limit on request headers. RequestHeaders request_headers = 3; // Rate limit on remote address. RemoteAddress remote_address = 4; // Rate limit on a generic key. GenericKey generic_key = 5; // Rate limit on the existence of request headers. HeaderValueMatch header_value_match = 6; // Rate limit on dynamic metadata. // // .. attention:: // This field has been deprecated in favor of the :ref:`metadata ` field DynamicMetaData dynamic_metadata = 7 [ deprecated = true, (envoy.annotations.deprecated_at_minor_version) = "3.0", (envoy.annotations.disallowed_by_default) = true ]; // Rate limit on metadata. MetaData metadata = 8; // Rate limit descriptor extension. See the rate limit descriptor extensions documentation. // // :ref:`HTTP matching input functions ` are // permitted as descriptor extensions. The input functions are only // looked up if there is no rate limit descriptor extension matching // the type URL. // // [#extension-category: envoy.rate_limit_descriptors] core.v3.TypedExtensionConfig extension = 9; // Rate limit on masked remote address. MaskedRemoteAddress masked_remote_address = 10; } } message Override { // Fetches the override from the dynamic metadata. message DynamicMetadata { // Metadata struct that defines the key and path to retrieve the struct value. // The value must be a struct containing an integer "requests_per_unit" property // and a "unit" property with a value parseable to :ref:`RateLimitUnit // enum ` type.metadata.v3.MetadataKey metadata_key = 1 [(validate.rules).message = {required: true}]; } oneof override_specifier { option (validate.required) = true; // Limit override from dynamic metadata. DynamicMetadata dynamic_metadata = 1; } } // Refers to the stage set in the filter. The rate limit configuration only // applies to filters with the same stage number. The default stage number is // 0. // // .. note:: // // The filter supports a range of 0 - 10 inclusively for stage numbers. google.protobuf.UInt32Value stage = 1 [(validate.rules).uint32 = {lte: 10}]; // The key to be set in runtime to disable this rate limit configuration. string disable_key = 2; // A list of actions that are to be applied for this rate limit configuration. // Order matters as the actions are processed sequentially and the descriptor // is composed by appending descriptor entries in that sequence. If an action // cannot append a descriptor entry, no descriptor is generated for the // configuration. See :ref:`composing actions // ` for additional documentation. repeated Action actions = 3 [(validate.rules).repeated = {min_items: 1}]; // An optional limit override to be appended to the descriptor produced by this // rate limit configuration. If the override value is invalid or cannot be resolved // from metadata, no override is provided. See :ref:`rate limit override // ` for more information. Override limit = 4; } // .. attention:: // // Internally, Envoy always uses the HTTP/2 ``:authority`` header to represent the HTTP/1 ``Host`` // header. Thus, if attempting to match on ``Host``, match on ``:authority`` instead. // // .. attention:: // // To route on HTTP method, use the special HTTP/2 ``:method`` header. This works for both // HTTP/1 and HTTP/2 as Envoy normalizes headers. E.g., // // .. code-block:: json // // { // "name": ":method", // "string_match": { // "exact": "POST" // } // } // // .. attention:: // In the absence of any header match specifier, match will default to :ref:`present_match // `. i.e, a request that has the :ref:`name // ` header will match, regardless of the header's // value. // // [#next-major-version: HeaderMatcher should be refactored to use StringMatcher.] // [#next-free-field: 15] message HeaderMatcher { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.HeaderMatcher"; reserved 2, 3, 5; reserved "regex_match"; // Specifies the name of the header in the request. string name = 1 [(validate.rules).string = {min_len: 1 well_known_regex: HTTP_HEADER_NAME strict: false}]; // Specifies how the header match will be performed to route the request. oneof header_match_specifier { // If specified, header match will be performed based on the value of the header. // This field is deprecated. Please use :ref:`string_match `. string exact_match = 4 [deprecated = true, (envoy.annotations.deprecated_at_minor_version) = "3.0"]; // If specified, this regex string is a regular expression rule which implies the entire request // header value must match the regex. The rule will not match if only a subsequence of the // request header value matches the regex. // This field is deprecated. Please use :ref:`string_match `. type.matcher.v3.RegexMatcher safe_regex_match = 11 [deprecated = true, (envoy.annotations.deprecated_at_minor_version) = "3.0"]; // If specified, header match will be performed based on range. // The rule will match if the request header value is within this range. // The entire request header value must represent an integer in base 10 notation: consisting of // an optional plus or minus sign followed by a sequence of digits. The rule will not match if // the header value does not represent an integer. Match will fail for empty values, floating // point numbers or if only a subsequence of the header value is an integer. // // Examples: // // * For range [-10,0), route will match for header value -1, but not for 0, ``somestring``, 10.9, // ``-1somestring`` type.v3.Int64Range range_match = 6; // If specified as true, header match will be performed based on whether the header is in the // request. If specified as false, header match will be performed based on whether the header is absent. bool present_match = 7; // If specified, header match will be performed based on the prefix of the header value. // Note: empty prefix is not allowed, please use present_match instead. // This field is deprecated. Please use :ref:`string_match `. // // Examples: // // * The prefix ``abcd`` matches the value ``abcdxyz``, but not for ``abcxyz``. string prefix_match = 9 [ deprecated = true, (validate.rules).string = {min_len: 1}, (envoy.annotations.deprecated_at_minor_version) = "3.0" ]; // If specified, header match will be performed based on the suffix of the header value. // Note: empty suffix is not allowed, please use present_match instead. // This field is deprecated. Please use :ref:`string_match `. // // Examples: // // * The suffix ``abcd`` matches the value ``xyzabcd``, but not for ``xyzbcd``. string suffix_match = 10 [ deprecated = true, (validate.rules).string = {min_len: 1}, (envoy.annotations.deprecated_at_minor_version) = "3.0" ]; // If specified, header match will be performed based on whether the header value contains // the given value or not. // Note: empty contains match is not allowed, please use present_match instead. // This field is deprecated. Please use :ref:`string_match `. // // Examples: // // * The value ``abcd`` matches the value ``xyzabcdpqr``, but not for ``xyzbcdpqr``. string contains_match = 12 [ deprecated = true, (validate.rules).string = {min_len: 1}, (envoy.annotations.deprecated_at_minor_version) = "3.0" ]; // If specified, header match will be performed based on the string match of the header value. type.matcher.v3.StringMatcher string_match = 13; } // If specified, the match result will be inverted before checking. Defaults to false. // // Examples: // // * The regex ``\d{3}`` does not match the value ``1234``, so it will match when inverted. // * The range [-10,0) will match the value -1, so it will not match when inverted. bool invert_match = 8; // If specified, for any header match rule, if the header match rule specified header // does not exist, this header value will be treated as empty. Defaults to false. // // Examples: // // * The header match rule specified header "header1" to range match of [0, 10], // :ref:`invert_match ` // is set to true and :ref:`treat_missing_header_as_empty ` // is set to true; The "header1" header is not present. The match rule will // treat the "header1" as an empty header. The empty header does not match the range, // so it will match when inverted. // * The header match rule specified header "header2" to range match of [0, 10], // :ref:`invert_match ` // is set to true and :ref:`treat_missing_header_as_empty ` // is set to false; The "header2" header is not present and the header // matcher rule for "header2" will be ignored so it will not match. // * The header match rule specified header "header3" to a string regex match // ``^$`` which means an empty string, and // :ref:`treat_missing_header_as_empty ` // is set to true; The "header3" header is not present. // The match rule will treat the "header3" header as an empty header so it will match. // * The header match rule specified header "header4" to a string regex match // ``^$`` which means an empty string, and // :ref:`treat_missing_header_as_empty ` // is set to false; The "header4" header is not present. // The match rule for "header4" will be ignored so it will not match. bool treat_missing_header_as_empty = 14; } // Query parameter matching treats the query string of a request's :path header // as an ampersand-separated list of keys and/or key=value elements. // [#next-free-field: 7] message QueryParameterMatcher { option (udpa.annotations.versioning).previous_message_type = "envoy.api.v2.route.QueryParameterMatcher"; reserved 3, 4; reserved "value", "regex"; // Specifies the name of a key that must be present in the requested // ``path``'s query string. string name = 1 [(validate.rules).string = {min_len: 1 max_bytes: 1024}]; oneof query_parameter_match_specifier { // Specifies whether a query parameter value should match against a string. type.matcher.v3.StringMatcher string_match = 5 [(validate.rules).message = {required: true}]; // Specifies whether a query parameter should be present. bool present_match = 6; } } // HTTP Internal Redirect :ref:`architecture overview `. message InternalRedirectPolicy { // An internal redirect is not handled, unless the number of previous internal redirects that a // downstream request has encountered is lower than this value. // In the case where a downstream request is bounced among multiple routes by internal redirect, // the first route that hits this threshold, or does not set :ref:`internal_redirect_policy // ` // will pass the redirect back to downstream. // // If not specified, at most one redirect will be followed. google.protobuf.UInt32Value max_internal_redirects = 1; // Defines what upstream response codes are allowed to trigger internal redirect. If unspecified, // only 302 will be treated as internal redirect. // Only 301, 302, 303, 307 and 308 are valid values. Any other codes will be ignored. repeated uint32 redirect_response_codes = 2 [(validate.rules).repeated = {max_items: 5}]; // Specifies a list of predicates that are queried when an upstream response is deemed // to trigger an internal redirect by all other criteria. Any predicate in the list can reject // the redirect, causing the response to be proxied to downstream. // [#extension-category: envoy.internal_redirect_predicates] repeated core.v3.TypedExtensionConfig predicates = 3; // Allow internal redirect to follow a target URI with a different scheme than the value of // x-forwarded-proto. The default is false. bool allow_cross_scheme_redirect = 4; } // A simple wrapper for an HTTP filter config. This is intended to be used as a wrapper for the // map value in // :ref:`VirtualHost.typed_per_filter_config`, // :ref:`Route.typed_per_filter_config`, // or :ref:`WeightedCluster.ClusterWeight.typed_per_filter_config` // to add additional flags to the filter. // [#not-implemented-hide:] message FilterConfig { // The filter config. google.protobuf.Any config = 1; // If true, the filter is optional, meaning that if the client does // not support the specified filter, it may ignore the map entry rather // than rejecting the config. bool is_optional = 2; }