[READ ONLY MIRROR] Envoy REST/proto API definitions and documentation. (grpc依赖)
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syntax = "proto3";
package envoy.config.route.v4alpha;
import "envoy/config/core/v4alpha/base.proto";
import "envoy/config/core/v4alpha/extension.proto";
import "envoy/config/core/v4alpha/proxy_protocol.proto";
import "envoy/type/matcher/v4alpha/regex.proto";
import "envoy/type/matcher/v4alpha/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/struct.proto";
import "google/protobuf/wrappers.proto";
import "envoy/annotations/deprecation.proto";
import "udpa/annotations/status.proto";
import "udpa/annotations/versioning.proto";
import "validate/validate.proto";
option java_package = "io.envoyproxy.envoy.config.route.v4alpha";
option java_outer_classname = "RouteComponentsProto";
option java_multiple_files = true;
option (udpa.annotations.file_status).package_version_status = NEXT_MAJOR_VERSION_CANDIDATE;
// [#protodoc-title: HTTP route components]
// * Routing :ref:`architecture overview <arch_overview_http_routing>`
// * HTTP :ref:`router filter <config_http_filters_router>`
// 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: 21]
message VirtualHost {
option (udpa.annotations.versioning).previous_message_type = "envoy.config.route.v3.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_bytes: 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.
repeated Route routes = 3;
// 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_api_msg_config.route.v4alpha.Route` and before headers from the
// enclosing :ref:`envoy_api_msg_config.route.v4alpha.RouteConfiguration`. For more information, including
// details on header value syntax, see the documentation on :ref:`custom request headers
// <config_http_conn_man_headers_custom_request_headers>`.
repeated core.v4alpha.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_bytes: 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_api_msg_config.route.v4alpha.Route` and before headers from the
// enclosing :ref:`envoy_api_msg_config.route.v4alpha.RouteConfiguration`. For more information, including
// details on header value syntax, see the documentation on :ref:`custom request headers
// <config_http_conn_man_headers_custom_request_headers>`.
repeated core.v4alpha.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_bytes: 1 well_known_regex: HTTP_HEADER_NAME strict: false}}
}];
// Indicates that the virtual host has a CORS policy.
CorsPolicy cors = 8;
// The per_filter_config field can be used to provide virtual host-specific
// configurations for filters. The key should match the filter name, such as
// *envoy.filters.http.buffer* for the HTTP buffer filter. Use of this field is filter
// specific; see the :ref:`HTTP filter documentation <config_http_filters>`
// for if and how it is utilized.
map<string, google.protobuf.Any> typed_per_filter_config = 15;
// Decides whether the :ref:`x-envoy-attempt-count
// <config_http_filters_router_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
// <envoy_api_field_extensions.filters.http.router.v4alpha.Router.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
// <config_http_filters_router_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
// <envoy_api_field_extensions.filters.http.router.v4alpha.Router.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 <envoy_api_field_config.route.v4alpha.VirtualHost.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;
}
// A filter-defined action type.
message FilterAction {
option (udpa.annotations.versioning).previous_message_type = "envoy.config.route.v3.FilterAction";
google.protobuf.Any action = 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
// <envoy_api_msg_config.route.v4alpha.HeaderMatcher>`.
// [#next-free-field: 18]
message Route {
option (udpa.annotations.versioning).previous_message_type = "envoy.config.route.v3.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:]
// If true, a filter will define the 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;
}
// 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.v4alpha.Metadata metadata = 4;
// Decorator for the matched route.
Decorator decorator = 5;
// The typed_per_filter_config field can be used to provide route-specific
// configurations for filters. The key should match the filter name, such as
// *envoy.filters.http.buffer* for the HTTP buffer filter. Use of this field is filter
// specific; see the :ref:`HTTP filter documentation <config_http_filters>` for
// if and how it is utilized.
map<string, google.protobuf.Any> 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_api_msg_config.route.v4alpha.VirtualHost` and
// :ref:`envoy_api_msg_config.route.v4alpha.RouteConfiguration`. For more information, including details on
// header value syntax, see the documentation on :ref:`custom request headers
// <config_http_conn_man_headers_custom_request_headers>`.
repeated core.v4alpha.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_bytes: 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_api_msg_config.route.v4alpha.VirtualHost` and
// :ref:`envoy_api_msg_config.route.v4alpha.RouteConfiguration`. For more information, including
// details on header value syntax, see the documentation on
// :ref:`custom request headers <config_http_conn_man_headers_custom_request_headers>`.
repeated core.v4alpha.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_bytes: 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;
}
// Compared to the :ref:`cluster <envoy_api_field_config.route.v4alpha.RouteAction.cluster>` field that specifies a
// single upstream cluster as the target of a request, the :ref:`weighted_clusters
// <envoy_api_field_config.route.v4alpha.RouteAction.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.config.route.v3.WeightedCluster";
// [#next-free-field: 11]
message ClusterWeight {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.WeightedCluster.ClusterWeight";
reserved 7, 8;
reserved "per_filter_config";
// Name of the upstream cluster. The cluster must exist in the
// :ref:`cluster manager configuration <config_cluster_manager>`.
string name = 1 [(validate.rules).string = {min_bytes: 1}];
// An integer between 0 and :ref:`total_weight
// <envoy_api_field_config.route.v4alpha.WeightedCluster.total_weight>`. 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 add up to the total_weight, which defaults to 100.
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 <envoy_api_field_config.route.v4alpha.RouteAction.metadata_match>`, with
// values here taking precedence. The filter name should be specified as *envoy.lb*.
core.v4alpha.Metadata metadata_match = 3;
// Specifies a list of headers to be added to requests when this cluster is selected
// through the enclosing :ref:`envoy_api_msg_config.route.v4alpha.RouteAction`.
// Headers specified at this level are applied before headers from the enclosing
// :ref:`envoy_api_msg_config.route.v4alpha.Route`, :ref:`envoy_api_msg_config.route.v4alpha.VirtualHost`, and
// :ref:`envoy_api_msg_config.route.v4alpha.RouteConfiguration`. For more information, including details on
// header value syntax, see the documentation on :ref:`custom request headers
// <config_http_conn_man_headers_custom_request_headers>`.
repeated core.v4alpha.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_api_msg_config.route.v4alpha.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_api_msg_config.route.v4alpha.RouteAction`.
// Headers specified at this level are applied before headers from the enclosing
// :ref:`envoy_api_msg_config.route.v4alpha.Route`, :ref:`envoy_api_msg_config.route.v4alpha.VirtualHost`, and
// :ref:`envoy_api_msg_config.route.v4alpha.RouteConfiguration`. For more information, including details on
// header value syntax, see the documentation on :ref:`custom request headers
// <config_http_conn_man_headers_custom_request_headers>`.
repeated core.v4alpha.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_api_msg_config.route.v4alpha.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 filter name, such as
// *envoy.filters.http.buffer* for the HTTP buffer filter. Use of this field is filter
// specific; see the :ref:`HTTP filter documentation <config_http_filters>`
// for if and how it is utilized.
map<string, google.protobuf.Any> typed_per_filter_config = 10;
}
// 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, which must be greater than 0. Defaults to 100.
google.protobuf.UInt32Value total_weight = 3 [(validate.rules).uint32 = {gte: 1}];
// 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
// <operations_runtime>` for how key names map to the underlying implementation.
string runtime_key_prefix = 2;
}
// [#next-free-field: 13]
message RouteMatch {
option (udpa.annotations.versioning).previous_message_type = "envoy.config.route.v3.RouteMatch";
message GrpcRouteMatchOptions {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RouteMatch.GrpcRouteMatchOptions";
}
message TlsContextMatchOptions {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.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 {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RouteMatch.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.v4alpha.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;
}
// Indicates that prefix/path matching should be case sensitive. The default
// is true.
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
// <config_http_conn_man_route_table_traffic_splitting_shift>` 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.v4alpha.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.
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;
}
// [#next-free-field: 12]
message CorsPolicy {
option (udpa.annotations.versioning).previous_message_type = "envoy.config.route.v3.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.v4alpha.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 <envoy_api_field_config.core.v4alpha.RuntimeFractionalPercent.runtime_key>` is
// specified, Envoy will lookup the runtime key to get the percentage of requests to filter.
core.v4alpha.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 <envoy_api_field_config.core.v4alpha.RuntimeFractionalPercent.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.v4alpha.RuntimeFractionalPercent shadow_enabled = 10;
}
// [#next-free-field: 36]
message RouteAction {
option (udpa.annotations.versioning).previous_message_type = "envoy.config.route.v3.RouteAction";
enum ClusterNotFoundResponseCode {
// HTTP status code - 503 Service Unavailable.
SERVICE_UNAVAILABLE = 0;
// HTTP status code - 404 Not Found.
NOT_FOUND = 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.
message RequestMirrorPolicy {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RouteAction.RequestMirrorPolicy";
reserved 2;
reserved "runtime_key";
// Specifies the cluster that requests will be mirrored to. The cluster must
// exist in the cluster manager configuration.
string cluster = 1 [(validate.rules).string = {min_bytes: 1}];
// 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.v4alpha.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
// <arch_overview_load_balancing_types>`.
// [#next-free-field: 7]
message HashPolicy {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RouteAction.HashPolicy";
message Header {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.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_bytes: 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.v4alpha.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.config.route.v3.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_bytes: 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.config.route.v3.RouteAction.HashPolicy.ConnectionProperties";
// Hash on source IP address.
bool source_ip = 1;
}
message QueryParameter {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.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_bytes: 1}];
}
message FilterState {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RouteAction.HashPolicy.FilterState";
// The name of the Object in the per-request filterState, which is an
// Envoy::Http::Hashable object. If there is no data associated with the key,
// or the stored object is not Envoy::Http::Hashable, no hash will be produced.
string key = 1 [(validate.rules).string = {min_bytes: 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
// <envoy_api_field_extensions.filters.network.http_connection_manager.v4alpha.HttpConnectionManager.upgrade_configs>`
// but does not affect any custom filter chain specified there.
message UpgradeConfig {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RouteAction.UpgradeConfig";
// Configuration for sending data upstream as a raw data payload. This is used for
// CONNECT requests, when forwarding CONNECT payload as raw TCP.
message ConnectConfig {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RouteAction.UpgradeConfig.ConnectConfig";
// If present, the proxy protocol header will be prepended to the CONNECT payload sent upstream.
core.v4alpha.ProxyProtocolConfig proxy_protocol_config = 1;
}
// 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 = {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;
}
reserved 12, 18, 19, 16, 22, 21, 10, 26, 31;
reserved "request_mirror_policy", "internal_redirect_action", "max_internal_redirects";
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_bytes: 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.
string cluster_header = 2
[(validate.rules).string = {min_bytes: 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 <config_http_conn_man_route_table_traffic_splitting_split>`
// for additional documentation.
WeightedCluster weighted_clusters = 3;
}
// 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
// <envoy_api_field_config.route.v4alpha.RouteAction.weighted_clusters>`, metadata will be merged, with values
// provided there taking precedence. The filter name should be specified as *envoy.lb*.
core.v4alpha.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
// <config_http_filters_router_x-envoy-original-path>` header.
//
// Only one of *prefix_rewrite* or
// :ref:`regex_rewrite <envoy_api_field_config.route.v4alpha.RouteAction.regex_rewrite>`
// may be specified.
//
// .. attention::
//
// Pay careful attention to the use of trailing slashes in the
// :ref:`route's match <envoy_api_field_config.route.v4alpha.Route.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 <envoy_api_msg_config.route.v4alpha.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
// <config_http_filters_router_x-envoy-original-path>` header.
//
// Only one of :ref:`prefix_rewrite <envoy_api_field_config.route.v4alpha.RouteAction.prefix_rewrite>`
// or *regex_rewrite* may be specified.
//
// Examples using Google's `RE2 <https://github.com/google/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.v4alpha.RegexMatchAndSubstitute regex_rewrite = 32;
oneof host_rewrite_specifier {
// Indicates that during forwarding, the host header will be swapped with
// this value.
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.
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 <config_http_conn_man_headers_custom_request_headers>` header.
// If header value is empty, host header is left intact.
//
// .. attention::
//
// Pay attention to the potential security implications of using this option. Provided header
// must come from trusted source.
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.
//
// 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.v4alpha.RegexMatchAndSubstitute host_rewrite_path_regex = 35;
}
// 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 <arch_overview_http_routing_retry>`.
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
// <envoy_api_field_extensions.filters.network.http_connection_manager.v4alpha.HttpConnectionManager.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
// <envoy_api_field_config.route.v4alpha.RouteAction.timeout>`, which provides an upper bound
// on the upstream response time; :ref:`idle_timeout
// <envoy_api_field_config.route.v4alpha.RouteAction.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.
google.protobuf.Duration idle_timeout = 24;
// 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 <envoy_api_field_config.route.v4alpha.VirtualHost.retry_policy>`
// should not be set if this field is used.
google.protobuf.Any retry_policy_typed_config = 33;
// Indicates that the route has request mirroring policies.
repeated RequestMirrorPolicy request_mirror_policies = 30;
// Optionally specifies the :ref:`routing priority <arch_overview_http_routing_priority>`.
core.v4alpha.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 <envoy_api_field_config.route.v4alpha.VirtualHost.rate_limits>` are not applied to the
// request.
google.protobuf.BoolValue include_vh_rate_limits = 14;
// 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.
CorsPolicy cors = 17;
// If present, and the request is a gRPC request, use the
// `grpc-timeout header <https://github.com/grpc/grpc/blob/master/doc/PROTOCOL-HTTP2.md>`_,
// or its default value (infinity) instead of
// :ref:`timeout <envoy_api_field_config.route.v4alpha.RouteAction.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 <envoy_api_field_config.route.v4alpha.RouteAction.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 <https://github.com/grpc/grpc/blob/master/doc/PROTOCOL-HTTP2.md>`_, 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 <arch_overview_http_routing_retry>`.
google.protobuf.Duration max_grpc_timeout = 23;
// 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;
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
// <envoy_api_field_config.route.v4alpha.InternalRedirectPolicy.redirect_response_codes>`.
InternalRedirectPolicy internal_redirect_policy = 34;
// 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;
}
// HTTP retry :ref:`architecture overview <arch_overview_http_routing_retry>`.
// [#next-free-field: 12]
message RetryPolicy {
option (udpa.annotations.versioning).previous_message_type = "envoy.config.route.v3.RetryPolicy";
enum ResetHeaderFormat {
SECONDS = 0;
UNIX_TIMESTAMP = 1;
}
message RetryPriority {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RetryPolicy.RetryPriority";
reserved 2;
reserved "config";
string name = 1 [(validate.rules).string = {min_bytes: 1}];
oneof config_type {
google.protobuf.Any typed_config = 3;
}
}
message RetryHostPredicate {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RetryPolicy.RetryHostPredicate";
reserved 2;
reserved "config";
string name = 1 [(validate.rules).string = {min_bytes: 1}];
oneof config_type {
google.protobuf.Any typed_config = 3;
}
}
message RetryBackOff {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.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 {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RetryPolicy.ResetHeader";
string name = 1
[(validate.rules).string = {min_bytes: 1 well_known_regex: HTTP_HEADER_NAME strict: false}];
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 <envoy_v3_api_field_config.route.v3.RetryPolicy.retry_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 {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RetryPolicy.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 max_retries = 2;
// Specifies a non-zero upstream timeout per retry 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 <envoy_api_field_config.route.v4alpha.RouteAction.timeout>` for the request.
// Consequently, when using a :ref:`5xx <config_http_filters_router_x-envoy-retry-on>` 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 implementation of a RetryPriority which is used to determine the
// distribution of load across priorities used for retries. Refer to
// :ref:`retry plugin configuration <arch_overview_http_retry_plugins>` 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 <arch_overview_http_retry_plugins>` for more
// details.
repeated RetryHostPredicate retry_host_predicate = 5;
// 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 <arch_overview_http_routing_hedging>`.
message HedgePolicy {
option (udpa.annotations.versioning).previous_message_type = "envoy.config.route.v3.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 will only occur if the retry policy also indicates that a
// timed out request should be retried.
// Once a timed out request is retried due to per try timeout, the router
// filter will ensure that it is not retried again even if the returned
// response headers would otherwise be retried according the specified
// :ref:`RetryPolicy <envoy_api_msg_config.route.v4alpha.RetryPolicy>`.
// Defaults to false.
bool hedge_on_per_try_timeout = 3;
}
// [#next-free-field: 9]
message RedirectAction {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.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 <envoy_api_field_config.route.v4alpha.RouteAction.prefix_rewrite>`.
string prefix_rewrite = 5
[(validate.rules).string = {well_known_regex: HTTP_HEADER_VALUE strict: false}];
}
// 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.config.route.v3.DirectResponseAction";
// Specifies the HTTP response status to be returned.
uint32 status = 1 [(validate.rules).uint32 = {lt: 600 gte: 100}];
// 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_api_msg_config.route.v4alpha.Route`, :ref:`envoy_api_msg_config.route.v4alpha.RouteConfiguration` or
// :ref:`envoy_api_msg_config.route.v4alpha.VirtualHost`.
core.v4alpha.DataSource body = 2;
}
message Decorator {
option (udpa.annotations.versioning).previous_message_type = "envoy.config.route.v3.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
// <config_http_filters_router_x-envoy-decorator-operation>` header.
string operation = 1 [(validate.rules).string = {min_bytes: 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.config.route.v3.Tracing";
// Target percentage of requests managed by this HTTP connection manager that will be force
// traced if the :ref:`x-client-trace-id <config_http_conn_man_headers_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
// <config_http_conn_man_runtime>`.
// 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 <config_http_conn_man_runtime>`.
// 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 <config_http_conn_man_runtime>`.
// 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
// <envoy_api_field_extensions.filters.network.http_connection_manager.v4alpha.HttpConnectionManager.Tracing.custom_tags>`
// 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 <config_http_filters_router_vcluster_stats>`.
//
// .. 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.config.route.v3.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 <config_http_filters_router_stats>`.
string name = 2 [(validate.rules).string = {min_bytes: 1}];
}
// Global rate limiting :ref:`architecture overview <arch_overview_global_rate_limit>`.
message RateLimit {
option (udpa.annotations.versioning).previous_message_type = "envoy.config.route.v3.RateLimit";
// [#next-free-field: 8]
message Action {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RateLimit.Action";
// The following descriptor entry is appended to the descriptor:
//
// .. code-block:: cpp
//
// ("source_cluster", "<local service cluster>")
//
// <local service cluster> is derived from the :option:`--service-cluster` option.
message SourceCluster {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RateLimit.Action.SourceCluster";
}
// The following descriptor entry is appended to the descriptor:
//
// .. code-block:: cpp
//
// ("destination_cluster", "<routed target cluster>")
//
// Once a request matches against a route table rule, a routed cluster is determined by one of
// the following :ref:`route table configuration <envoy_api_msg_config.route.v4alpha.RouteConfiguration>`
// settings:
//
// * :ref:`cluster <envoy_api_field_config.route.v4alpha.RouteAction.cluster>` indicates the upstream cluster
// to route to.
// * :ref:`weighted_clusters <envoy_api_field_config.route.v4alpha.RouteAction.weighted_clusters>`
// chooses a cluster randomly from a set of clusters with attributed weight.
// * :ref:`cluster_header <envoy_api_field_config.route.v4alpha.RouteAction.cluster_header>` indicates which
// header in the request contains the target cluster.
message DestinationCluster {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RateLimit.Action.DestinationCluster";
}
// The following descriptor entry is appended when a header contains a key that matches the
// *header_name*:
//
// .. code-block:: cpp
//
// ("<descriptor_key>", "<header_value_queried_from_header>")
message RequestHeaders {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.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_bytes: 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_bytes: 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 <config_http_conn_man_headers_x-forwarded-for>`:
//
// .. code-block:: cpp
//
// ("remote_address", "<trusted address from x-forwarded-for>")
message RemoteAddress {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RateLimit.Action.RemoteAddress";
}
// The following descriptor entry is appended to the descriptor:
//
// .. code-block:: cpp
//
// ("generic_key", "<descriptor_value>")
message GenericKey {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RateLimit.Action.GenericKey";
// The value to use in the descriptor entry.
string descriptor_value = 1 [(validate.rules).string = {min_bytes: 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", "<descriptor_value>")
message HeaderValueMatch {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RateLimit.Action.HeaderValueMatch";
// The value to use in the descriptor entry.
string descriptor_value = 1 [(validate.rules).string = {min_bytes: 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 dynamic metadata contains a key value:
//
// .. code-block:: cpp
//
// ("<descriptor_key>", "<value_queried_from_metadata>")
message DynamicMetaData {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RateLimit.Action.DynamicMetaData";
// The key to use in the descriptor entry.
string descriptor_key = 1 [(validate.rules).string = {min_bytes: 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;
}
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.
DynamicMetaData dynamic_metadata = 7;
}
}
message Override {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RateLimit.Override";
// Fetches the override from the dynamic metadata.
message DynamicMetadata {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.RateLimit.Override.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 <envoy_api_enum_type.v3.RateLimitUnit>`
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
// <config_http_filters_rate_limit_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
// <config_http_filters_rate_limit_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",
// "exact_match": "POST"
// }
//
// .. attention::
// In the absence of any header match specifier, match will default to :ref:`present_match
// <envoy_api_field_config.route.v4alpha.HeaderMatcher.present_match>`. i.e, a request that has the :ref:`name
// <envoy_api_field_config.route.v4alpha.HeaderMatcher.name>` header will match, regardless of the header's
// value.
//
// [#next-major-version: HeaderMatcher should be refactored to use StringMatcher.]
// [#next-free-field: 13]
message HeaderMatcher {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.HeaderMatcher";
reserved 2, 3, 5;
reserved "regex_match";
// Specifies the name of the header in the request.
string name = 1
[(validate.rules).string = {min_bytes: 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.
string exact_match = 4;
// 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.
type.matcher.v4alpha.RegexMatcher safe_regex_match = 11;
// 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, header match will be performed based on whether the header is in the
// request.
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.
//
// Examples:
//
// * The prefix *abcd* matches the value *abcdxyz*, but not for *abcxyz*.
string prefix_match = 9 [(validate.rules).string = {min_bytes: 1}];
// 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.
//
// Examples:
//
// * The suffix *abcd* matches the value *xyzabcd*, but not for *xyzbcd*.
string suffix_match = 10 [(validate.rules).string = {min_bytes: 1}];
// 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.
//
// Examples:
//
// * The value *abcd* matches the value *xyzabcdpqr*, but not for *xyzbcdpqr*.
string contains_match = 12 [(validate.rules).string = {min_bytes: 1}];
}
// 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;
}
// 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.config.route.v3.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_bytes: 1 max_bytes: 1024}];
oneof query_parameter_match_specifier {
// Specifies whether a query parameter value should match against a string.
type.matcher.v4alpha.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 <arch_overview_internal_redirects>`.
message InternalRedirectPolicy {
option (udpa.annotations.versioning).previous_message_type =
"envoy.config.route.v3.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
// <envoy_api_field_config.route.v4alpha.RouteAction.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.
repeated core.v4alpha.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;
}