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GRPC Server Reflection Protocol
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===============================
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This document describes server reflection as an optional extension for servers
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to assist clients in runtime construction of requests without having stub
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information precompiled into the client.
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The primary usecase for server reflection is to write (typically) command line
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debugging tools for talking to a grpc server. In particular, such a tool will
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take in a method and a payload (in human readable text format) send it to the
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server (typically in binary proto wire format), and then take the response and
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decode it to text to present to the user.
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This broadly involves two problems: determining what formats (which protobuf
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messages) a server’s method uses, and determining how to convert messages
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between human readable format and the (likely binary) wire format.
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## Method reflection
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We want to be able to answer the following queries:
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1. What methods does a server export?
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2. For a particular method, how do we call it?
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Specifically, what are the names of the methods, are those methods unary or
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streaming, and what are the types of the argument and result?
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The first version of the protocol is here:
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https://github.com/grpc/grpc/blob/master/src/proto/grpc/reflection/v1/reflection.proto
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Note that a server is under no obligation to return a complete list of all
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methods it supports. For example, a reverse proxy may support server reflection
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for methods implemented directly on the proxy but not enumerate all methods
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supported by its backends.
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### Open questions on method reflection
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* Consider how to extend this protocol to support non-protobuf methods.
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## Argument reflection
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The second half of the problem is converting between the human readable
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input/output of a debugging tool and the binary format understood by the
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method.
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This is obviously dependent on protocol type. At one extreme, if both the
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server and the debugging tool accept JSON, there may be no need for such a
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conversion in the first place. At the opposite extreme, a server using a custom
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binary format has no hope of being supported by a generic system. The
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intermediate interesting common case is a server which speaks binary-proto and
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a debugging client which speaks either ascii-proto or json-proto.
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One approach would be to require servers directly support human readable input.
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In the future method reflection may be extended to document such support,
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should it become widespread or standardized.
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## Protobuf descriptors
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A second would be for the server to export its
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google::protobuf::DescriptorDatabase over the wire. This is very easy to
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implement in C++, and Google implementations of a similar protocol already
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exist in C++, Go, and Java.
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This protocol mostly returns FileDescriptorProtos, which are a proto encoding
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of a parsed .proto file. It supports four queries:
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1. The FileDescriptorProto for a given file name
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2. The FileDescriptorProto for the file with a given symbol
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3. The FileDescriptorProto for the file with a given extension
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4. The list of known extension tag numbers of a given type
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These directly correspond to the methods of
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google::protobuf::DescriptorDatabase. Note that this protocol includes support
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for extensions, which have been removed from proto3 but are still in widespread
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use in Google’s codebase.
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Because most usecases will require also requesting the transitive dependencies
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of requested files, the queries will also return all transitive dependencies of
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the returned file. Should interesting usecases for non-transitive queries turn
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up later, we can easily extend the protocol to support them.
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### Reverse proxy traversal
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One potential issue with naive reverse proxies is that, while any individual
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server will have a consistent and valid picture of the proto DB which is
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sufficient to handle incoming requests, incompatibilities will arise if the
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backend servers have a mix of builds. For example, if a given message is moved
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from foo.proto to bar.proto, and the client requests foo.proto from an old
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server and bar.proto from a new server, the resulting database will have a
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double definition.
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To solve this problem, the protocol is structured as a bidirectional stream,
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ensuring all related requests go to a single server. This has the additional
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benefit that overlapping recursive requests don’t require sending a lot of
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redundant information, because there is a single stream to maintain context
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between queries.
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```
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package grpc.reflection.v1alpha;
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message DescriptorDatabaseRequest {
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string host = 1;
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oneof message_request {
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string files_for_file_name = 3;
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string files_for_symbol_name = 4;
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FileContainingExtensionRequest file_containing_extension = 5;
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string list_all_extensions_of_type = 6;
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}
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}
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message FileContainingExtensionRequest {
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string base_message = 1;
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int64 extension_id = 2;
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}
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message DescriptorDatabaseResponse {
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string valid_host = 1;
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DescriptorDatabaseRequest original_request = 2;
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oneof message_response {
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// These are proto2 type google.protobuf.FileDescriptorProto, but
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// we avoid taking a dependency on descriptor.proto, which uses
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// proto2 only features, by making them opaque
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// bytes instead
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repeated bytes fd_proto = 4;
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ListAllExtensionsResponse extensions_response = 5;
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// Notably includes error code 5, NOT FOUND
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int32 error_code = 6;
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}
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}
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message ListAllExtensionsResponse {
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string base_type_name;
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repeated int64 extension_number;
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}
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service ProtoDescriptorDatabase {
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rpc DescriptorDatabaseInfo(stream DescriptorDatabaseRequest) returns (stream DescriptorDatabaseResponse);
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}
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```
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Any given request must either result in an error code or an answer, usually in
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the form of a series of FileDescriptorProtos with the requested file itself
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and all previously unsent transitive imports of that file. Servers may track
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which FileDescriptorProtos have been sent on a given stream, for a given value
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of valid_host, and avoid sending them repeatedly for overlapping requests.
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| message_request message | Result |
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| --------------------------- | ----------------------------------------------- |
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| files_for_file_name | transitive closure of file name |
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| files_for_symbol_name | transitive closure file containing symbol |
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| file_containing_extension | transitive closure of file containing a given extension number of a given symbol |
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| list_all_extensions_of_type | ListAllExtensionsResponse containing all known extension numbers of a given type |
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At some point it would make sense to additionally also support any.proto’s
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format. Note that known any.proto messages can be queried by symbol using this
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protocol even without any such support, by parsing the url and extracting the
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symbol name from it.
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## Language specific implementation thoughts
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All of the information needed to implement Proto reflection is available to the
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code generator, but I’m not certain we actually generate this in every
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language. If the proto implementation in the language doesn’t have something
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like google::protobuf::DescriptorPool the grpc implementation for that language
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will need to index those FileDescriptorProtos by file and symbol and imports.
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One issue is that some grpc implementations are very loosely coupled with
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protobufs; in such implementations it probably makes sense to split apart these
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reflection APIs so as not to take an additional proto dependency.
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## Known Implementations
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Enabling server reflection differs language-to-language. Here are links to docs relevant to
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each language:
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- [Java](https://github.com/grpc/grpc-java/blob/master/documentation/server-reflection-tutorial.md#enable-server-reflection)
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- [Go](https://github.com/grpc/grpc-go/blob/master/Documentation/server-reflection-tutorial.md#enable-server-reflection)
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- [C++](https://grpc.io/grpc/cpp/md_doc_server_reflection_tutorial.html)
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- [Python](https://github.com/grpc/grpc/blob/master/doc/python/server_reflection.md)
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- Ruby: not yet implemented [#2567](https://github.com/grpc/grpc/issues/2567)
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- Node: not yet implemented [#2568](https://github.com/grpc/grpc/issues/2568)
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