envoy.service.ratelimit.v2.rls.proto Maven / Gradle / Ivy
syntax = "proto3";
package envoy.service.ratelimit.v2;
import "envoy/api/v2/core/base.proto";
import "envoy/api/v2/ratelimit/ratelimit.proto";
import "udpa/annotations/migrate.proto";
import "udpa/annotations/status.proto";
option java_package = "io.envoyproxy.envoy.service.ratelimit.v2";
option java_outer_classname = "RlsProto";
option java_multiple_files = true;
option go_package = "github.com/envoyproxy/go-control-plane/envoy/service/ratelimit/v2;ratelimitv2";
option (udpa.annotations.file_status).package_version_status = FROZEN;
// [#protodoc-title: Rate Limit Service (RLS)]
service RateLimitService {
// Determine whether rate limiting should take place.
rpc ShouldRateLimit(RateLimitRequest) returns (RateLimitResponse) {
}
}
// Main message for a rate limit request. The rate limit service is designed to be fully generic
// in the sense that it can operate on arbitrary hierarchical key/value pairs. The loaded
// configuration will parse the request and find the most specific limit to apply. In addition,
// a RateLimitRequest can contain multiple "descriptors" to limit on. When multiple descriptors
// are provided, the server will limit on *ALL* of them and return an OVER_LIMIT response if any
// of them are over limit. This enables more complex application level rate limiting scenarios
// if desired.
message RateLimitRequest {
// All rate limit requests must specify a domain. This enables the configuration to be per
// application without fear of overlap. E.g., "envoy".
string domain = 1;
// All rate limit requests must specify at least one RateLimitDescriptor. Each descriptor is
// processed by the service (see below). If any of the descriptors are over limit, the entire
// request is considered to be over limit.
repeated api.v2.ratelimit.RateLimitDescriptor descriptors = 2;
// Rate limit requests can optionally specify the number of hits a request adds to the matched
// limit. If the value is not set in the message, a request increases the matched limit by 1.
uint32 hits_addend = 3;
}
// A response from a ShouldRateLimit call.
message RateLimitResponse {
enum Code {
// The response code is not known.
UNKNOWN = 0;
// The response code to notify that the number of requests are under limit.
OK = 1;
// The response code to notify that the number of requests are over limit.
OVER_LIMIT = 2;
}
// Defines an actual rate limit in terms of requests per unit of time and the unit itself.
message RateLimit {
enum Unit {
// The time unit is not known.
UNKNOWN = 0;
// The time unit representing a second.
SECOND = 1;
// The time unit representing a minute.
MINUTE = 2;
// The time unit representing an hour.
HOUR = 3;
// The time unit representing a day.
DAY = 4;
}
// A name or description of this limit.
string name = 3;
// The number of requests per unit of time.
uint32 requests_per_unit = 1;
// The unit of time.
Unit unit = 2;
}
message DescriptorStatus {
// The response code for an individual descriptor.
Code code = 1;
// The current limit as configured by the server. Useful for debugging, etc.
RateLimit current_limit = 2;
// The limit remaining in the current time unit.
uint32 limit_remaining = 3;
}
// The overall response code which takes into account all of the descriptors that were passed
// in the RateLimitRequest message.
Code overall_code = 1;
// A list of DescriptorStatus messages which matches the length of the descriptor list passed
// in the RateLimitRequest. This can be used by the caller to determine which individual
// descriptors failed and/or what the currently configured limits are for all of them.
repeated DescriptorStatus statuses = 2;
// A list of headers to add to the response
repeated api.v2.core.HeaderValue headers = 3
[(udpa.annotations.field_migrate).rename = "response_headers_to_add"];
// A list of headers to add to the request when forwarded
repeated api.v2.core.HeaderValue request_headers_to_add = 4;
}