schnutibox/vendor/github.com/twitchtv/twirp/PROTOCOL.md
Marvin Steadfast ae35d9ab41
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Twirp Wire Protocol

This document defines the Twirp wire protocol over HTTP. The current protocol version is v7.

Overview

The Twirp wire protocol is a simple RPC protocol based on HTTP and Protocol Buffers (proto). The protocol uses HTTP URLs to specify the RPC endpoints, and sends/receives proto messages as HTTP request/response bodies.

To use Twirp, developers first define their APIs using proto files, then use Twirp tools to generate the client and the server libraries. The generated libraries implement the Twirp wire protocol, using the standard HTTP library provided by the programming language runtime or the operating system. Once the client and the server are implemented, the client can communicate with the server by making RPC calls.

The Twirp wire protocol supports both binary and JSON encodings of proto messages, and works with any HTTP client and any HTTP version.

URLs

In ABNF syntax, Twirp's URLs have the following format:

URL ::= Base-URL [ Prefix ] "/" [ Package "." ] Service "/" Method

The Twirp wire protocol uses HTTP URLs to specify the RPC endpoints on the server for sending the requests. Such direct mapping makes the request routing simple and efficient. The Twirp URLs have the following components.

  • Base-URL is the virtual location of a Twirp API server, which is typically published via API documentation or service discovery. Currently, it should only contain URL scheme and authority. For example, "https://example.com".
  • Prefix is usually "/twirp", but it could be empty "", or an arbitrary path like "/my/custom/prefix".
  • Package is the proto package name for an API, which is often considered as an API version. For example, example.calendar.v1. This component is omitted if the API definition doesn't have a package name.
  • Service is the proto service name for an API. For example, CalendarService.
  • Method is the proto rpc name for an API method. For example, CreateEvent.

Requests

Twirp always uses HTTP POST method to send requests, because it closely matches the semantics of RPC methods.

The Request-Headers are normal HTTP headers. The Twirp wire protocol uses the following headers.

  • Content-Type header indicates the proto message encoding, which should be one of "application/protobuf", "application/json". The server uses this value to decide how to parse the request body, and encode the response body.

The Request-Body is the encoded request message, contained in the HTTP request body. The encoding is specified by the Content-Type header.

Responses

The Response-Headers are just normal HTTP response headers. The Twirp wire protocol uses the following headers.

  • Content-Type The value should be either "application/protobuf" or "application/json" to indicate the encoding of the response message. It must match the "Content-Type" header in the request.

The Request-Body is the encoded response message contained in the HTTP response body. The encoding is specified by the Content-Type header.

Example

The following example shows a simple Echo API definition and its corresponding wire payloads.

The example assumes the server base URL is "https://example.com".

syntax = "proto3";

package example.echoer;

service Echo {
  rpc Hello(HelloRequest) returns (HelloResponse);
}

message HelloRequest {
  string message;
}

message HelloResponse {
  string message;
}

Proto Request

POST /twirp/example.echoer.Echo/Hello HTTP/1.1
Host: example.com
Content-Type: application/protobuf
Content-Length: 15

<encoded HelloRequest>

JSON Request

POST /twirp/example.echoer.Echo/Hello HTTP/1.1
Host: example.com
Content-Type: application/json
Content-Length: 27

{"message":"Hello, World!"}

Proto Response

HTTP/1.1 200 OK
Content-Type: application/protobuf
Content-Length: 15

<encoded HelloResponse>

JSON Response

HTTP/1.1 200 OK
Content-Type: application/json
Content-Length: 27

{"message":"Hello, World!"}

Errors

Twirp error responses are always JSON-encoded, regardless of the request's Content-Type, with a corresponding Content-Type: application/json header. This ensures that the errors are human-readable in any setting.

Twirp errors are a JSON object with the keys:

  • code: One of the Twirp error codes as a string.
  • msg: A human-readable message describing the error as a string.
  • meta: (optional) An object with string values holding arbitrary additional metadata describing the error.

Example:

{
  "code": "internal",
  "msg": "Something went wrong"
}

Example with metadata:

{
  "code": "permission_denied",
  "msg": "Thou shall not pass",
  "meta": {
    "target": "Balrog",
    "power": "999"
  }
}

Error Codes

Twirp errors always include an error code. This code is represented as a string and must be one of a fixed set of codes, listed in the table below. Each code has an associated HTTP Status Code. When a server responds with the given error code, it must set the corresponding HTTP Status Code for the response.

Twirp Error Code HTTP Status Description
canceled 408 The operation was cancelled.
unknown 500 An unknown error occurred. For example, this can be used when handling errors raised by APIs that do not return any error information.
invalid_argument 400 The client specified an invalid argument. This indicates arguments that are invalid regardless of the state of the system (i.e. a malformed file name, required argument, number out of range, etc.).
malformed 400 The client sent a message which could not be decoded. This may mean that the message was encoded improperly or that the client and server have incompatible message definitions.
deadline_exceeded 408 Operation expired before completion. For operations that change the state of the system, this error may be returned even if the operation has completed successfully (timeout).
not_found 404 Some requested entity was not found.
bad_route 404 The requested URL path wasn't routable to a Twirp service and method. This is returned by generated server code and should not be returned by application code (use "not_found" or "unimplemented" instead).
already_exists 409 An attempt to create an entity failed because one already exists.
permission_denied 403 The caller does not have permission to execute the specified operation. It must not be used if the caller cannot be identified (use "unauthenticated" instead).
unauthenticated 401 The request does not have valid authentication credentials for the operation.
resource_exhausted 429 Some resource has been exhausted or rate-limited, perhaps a per-user quota, or perhaps the entire file system is out of space.
failed_precondition 412 The operation was rejected because the system is not in a state required for the operation's execution. For example, doing an rmdir operation on a directory that is non-empty, or on a non-directory object, or when having conflicting read-modify-write on the same resource.
aborted 409 The operation was aborted, typically due to a concurrency issue like sequencer check failures, transaction aborts, etc.
out_of_range 400 The operation was attempted past the valid range. For example, seeking or reading past end of a paginated collection. Unlike "invalid_argument", this error indicates a problem that may be fixed if the system state changes (i.e. adding more items to the collection). There is a fair bit of overlap between "failed_precondition" and "out_of_range". We recommend using "out_of_range" (the more specific error) when it applies so that callers who are iterating through a space can easily look for an "out_of_range" error to detect when they are done.
unimplemented 501 The operation is not implemented or not supported/enabled in this service.
internal 500 When some invariants expected by the underlying system have been broken. In other words, something bad happened in the library or backend service. Twirp specific issues like wire and serialization problems are also reported as "internal" errors.
unavailable 503 The service is currently unavailable. This is most likely a transient condition and may be corrected by retrying with a backoff.
dataloss 500 The operation resulted in unrecoverable data loss or corruption.