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L11: Add Ruby Client and Server Interceptors
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| Title | ||
| ---- | ||
| * Author(s): Shaun McCormick (@splittingred) | ||
| * Approver: mehrdada / apolcyn | ||
| * Status: In Review | ||
| * Implemented in: Ruby | ||
| * Last updated: Sept 6, 2017 | ||
| * Discussion at: https://groups.google.com/d/msg/grpc-io/YRfZe7IH69k/FdSI_CGEAAAJ | ||
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| ## Abstract | ||
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| Ruby gRPC client stubs and servers will present an interceptor interface, which will allow configuration of | ||
| interceptors that will execute on any inbound or outbound operation. The server and client interceptor APIs will | ||
| behave similarly, using a compositional model for interceptors that allow for request-type-specific interception. | ||
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| ## Background | ||
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| The Ruby language implementation for gRPC does not currently have an interceptor interface, whereas other languages | ||
| (ex: Go, Java) do. Application concerns and extensibility are currently closed in the Ruby implementation, making | ||
| it difficult to extend the libraries for various application needs. | ||
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| ### Related Proposals: | ||
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| * None | ||
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| ## Proposal | ||
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| Add both server and client interceptors to the Ruby gRPC implementation. Similar to the Golang implementation, | ||
| interceptors are set at the initialization of the client stub and RPC Server. They provide per-call interception | ||
| for gRPC Ruby services and clients. | ||
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| ### Client Interceptors | ||
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| This interceptor naively logs outbound requests and the method they call, and injects | ||
| a unique `request_id` metadata value into the metadata sent: | ||
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| ```ruby | ||
| require 'securerandom' | ||
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| class AppClientInterceptor < GRPC::ClientInterceptor | ||
| def request_response(request:, call:, method:, metadata:) | ||
| logger.info "Sending request/response to #{method}" | ||
| metadata['request_id'] = generate_request_id | ||
| yield | ||
| end | ||
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| def client_streamer(requests:, call:, method:, metadata:) | ||
| logger.info "Sending client streamer to #{method}" | ||
| metadata['request_id'] = generate_request_id | ||
| yield | ||
| end | ||
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| def server_streamer(request:, call:, method:, metadata:) | ||
| logger.info "Sending client streamer to #{method}" | ||
| metadata['request_id'] = generate_request_id | ||
| yield | ||
| end | ||
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| def bidi_streamer(requests:, call:, method:, metadata:) | ||
| logger.info "Sending bidi streamer to #{method}" | ||
| metadata['request_id'] = generate_request_id | ||
| yield | ||
| end | ||
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| private | ||
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| def logger | ||
| @logger ||= Logger.new(STDOUT) | ||
| end | ||
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| def generate_request_id | ||
| SecureRandom.uuid | ||
| end | ||
| end | ||
| ``` | ||
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| Each interceptor can choose then to combine functionality for different request types into a protected | ||
| or private method, or handle each request type differently, based on the needs of the interceptor. | ||
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| You'll also note that the interceptor must yield back in order to complete the call. Then the interceptor | ||
| can be added to the stub via the initializer, which passes in an array of interceptors: | ||
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| ```ruby | ||
| MyStub.new( | ||
| '0.0.0.0:0', | ||
| :this_channel_is_insecure, | ||
| interceptors: [AppClientInterceptor.new] | ||
| ) | ||
| ``` | ||
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| Interceptors maintain order of insertion by using the FIFO execution order native to Ruby's Array. | ||
| In other words, if multiple interceptors are added, they will intercept in the order they were set in the | ||
| passed array. | ||
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| #### Client Interception API | ||
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| Client interceptors have four separate methods, one for each request type. Their arguments are similar; | ||
| the only difference being if it is a streamed call, `request` will be `requests` and have an array of the | ||
| requests that were sent. | ||
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| For example, the arguments for a unary request/response call: | ||
|
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| ```ruby | ||
| ## | ||
| # @param [Object] request The protobuf request message | ||
| # @param [GRPC::ActiveCall::InterceptableView] call A restricted view of the active call object | ||
| # @param [Method] method The method being called | ||
| # @param [Hash] metadata The call's outbound metadata | ||
| def request_response(request:, call:, method:, metadata:) | ||
| yield | ||
| end | ||
| ``` | ||
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| The call object is a restricted view, which only exposes the `deadline` attribute that was set on the call. | ||
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| Also, the metadata hash here is able to be updated and will propagate to the server when the call executes. | ||
| This allows client interceptors to inject metadata for calls dynamically. | ||
|
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| ### Server Interceptors | ||
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| This interceptor logs incoming requests and the service and method they call: | ||
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| ```ruby | ||
| class ServerRequestLogInterceptor < GRPC::ServerInterceptor | ||
| def request_response(request:, call:, method:) | ||
| response = yield | ||
| log(method: method, response: response) | ||
| response | ||
| end | ||
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| def client_streamer(call:, method:) | ||
| response = yield | ||
| log(method: method, response: response) | ||
| response | ||
| end | ||
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| def server_streamer(request:, call:, method:) | ||
| response = yield | ||
| log(method: method, response: response) | ||
| response | ||
| end | ||
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| def bidi_streamer(requests:, call:, method:) | ||
| response = yield | ||
| log(method: method, response: response) | ||
| response | ||
| end | ||
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| private | ||
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| def log(method:, response:) | ||
| mth = "#{method.owner.name}.#{method.name}" | ||
| if response.is_a?(GRPC::BadStatus) | ||
| logger.info "[GRPC::Ok] (#{mth})" | ||
| else | ||
| logger.error "[#{response.class.name}] (#{mth}) #{response.message}" | ||
| end | ||
| end | ||
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| def logger | ||
| @logger ||= Logger.new(STDOUT) | ||
| end | ||
| end | ||
| ``` | ||
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| The interceptor can then be loaded via the initializer for the service: | ||
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| ```ruby | ||
| server = GRPC::RpcServer.new( | ||
| interceptors: [ServerRequestLogInterceptor.new] | ||
| ) | ||
| server.add_http2_port('0.0.0.0:0', :this_port_is_insecure) | ||
| server.handle(MyService) | ||
| server.run_till_terminated | ||
| ``` | ||
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| This example will produce logs like: | ||
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| > [GRPC::Ok] (MyService.a_rpc_method) | ||
| > [GRPC::Internal] (MyService.a_failing_rpc_method) An error occurred in my service! | ||
| ### Server Interception API | ||
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| Server interceptors act as decorators around handlers. Similar to client interceptors, server interceptors | ||
| have four separate methods, one for each request type. | ||
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| Unary and server streamer interceptor calls will have a single request, | ||
| `SingleReqView` view of the active call, and the method being requested. Client streamer interceptor calls | ||
| have only the `MultiReqView` and method passed (similar to the handler). Finally, the bidi call will receive | ||
| an enumerable of requests that are passed. | ||
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| For example, the arguments for a unary request/response call: | ||
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| ```ruby | ||
| ## | ||
| # @param [Object] request The protobuf request message | ||
| # @param [GRPC::ActiveCall::SingleReqView] call A restricted view of the active call object | ||
| # @param [Method] method The method being called | ||
| def request_response(request:, call:, method:) | ||
| yield | ||
| end | ||
| ``` | ||
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| Trailing metadata is able to be modified as well in interceptors, via the normal call API: | ||
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| ```ruby | ||
| call.output_metadata[:my_key] = 'my_value' | ||
| ``` | ||
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| ## Rationale | ||
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| To provide support for intercepting both at the client and server level, which is currently not supported, | ||
| and to bring parity for Ruby with the other language implementations. | ||
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| Methods per-request-type were done as opposed to a singular interceptor method (such as a `intercept` method | ||
| on each interceptor) in order to clearly distinguish the type of request that is coming in. Interceptors can | ||
| from that consolidate their behavior, but the separation makes for cleaner delineation between the types of | ||
| requests and makes explicit the differences between each in the arguments. | ||
|
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| ## Implementation | ||
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| Implementation is currently finishing review here: https://github.com/grpc/grpc/pull/12100 | ||
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| ### General Changes | ||
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| * Introduce a `GRPC::Interceptor` base class that client and server interceptors derive from, and provide | ||
| the internal API for an options Hash in the interceptor class itself that derived interceptors can utilize | ||
| * Introduce a new `GRPC::InterceptorRegistry` class that centrally handles the storage of the interceptors | ||
| * Introduce an `GRPC::InterceptionContext` class that centralizes the logic required to recursively handle | ||
| the interception of calls for both client and server interceptors | ||
| * Refactor `GRPC::Generic::BidiCall` to return the `replies` generated so interceptors can receive it | ||
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| ### Client Interceptor Changes | ||
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| * Add an `interceptors` argument that accepts an Array to the `ClientStub` initializer and builds a | ||
| `GRPC::InterceptorRegistry` instance from it | ||
| * Add an `InterceptableView` view that restricts access to the call to only be the `deadline` attribute | ||
| and a new `interceptable` method to the `ActiveCall` object that returns the view | ||
| * Add wrapping for each request type (such as `request_response`, `client_streamer`, etc) | ||
| in the `ClientStub` class that builds an interception context and wraps the `ActiveCall` call in an | ||
| interception block | ||
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| ### Server Interceptor Changes | ||
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| * Add an `interceptors` argument that accepts an Array to the `GRPC::RpcServer` initializer and | ||
| builds an `GRPC::InterceptorRegistry` instance from it | ||
| * Update the `handle_*` methods in `GRPC::Generic::RpcDesc` to take in a `GRPC::InterceptionContext` | ||
| instance, which then wraps the calls to the handler in an interception block |