This directory contains the Ruby extension that implements Protocol Buffers functionality in Ruby.

The Ruby extension makes use of generated Ruby code that defines message and enum types in a Ruby DSL. You may write definitions in this DSL directly, but we recommend using protoc's Ruby generation support with .proto files. The build process in this directory only installs the extension; you need to install protoc as well to have Ruby code generation functionality. You can build protoc from source using bazel build //:protoc.

Installation from Gem

In Gemfile (Please check which version of Protocol Buffers you need: RubyGems):

gem 'google-protobuf'

Or for using this pre-packaged gem, simply install it as you would any other gem:

$ gem install [--prerelease] google-protobuf

Once the gem is installed, you may or may not need protoc. If you write your message type descriptions directly in the Ruby DSL, you do not need it. However, if you wish to generate the Ruby DSL from a .proto file, you will also want to install Protocol Buffers itself, as described in this repository's main README file. The version of protoc included in the latest release supports the --ruby_out option to generate Ruby code.

A simple example of using the Ruby extension follows. More extensive documentation may be found in the RubyDoc comments (call-seq tags) in the source, and we plan to release separate, more detailed, documentation at a later date.

require 'google/protobuf'

# generated from my_proto_types.proto with protoc:
#  $ protoc --ruby_out=. my_proto_types.proto
require 'my_proto_types'

mymessage = MyTestMessage.new(:field1 => 42, :field2 => ["a", "b", "c"])
mymessage.field1 = 43
mymessage.field2.push("d")
mymessage.field3 = SubMessage.new(:foo => 100)

encoded_data = MyTestMessage.encode(mymessage)
decoded = MyTestMessage.decode(encoded_data)
assert_equal mymessage, decoded
puts "JSON:"
puts MyTestMessage.encode_json(mymessage)

Installation from Source (Building Gem)

Protocol Buffers has a new experimental backend that uses the ffi gem to provide a unified C-based implementation across Ruby interpreters based on UPB. For now, use of the FFI implementation is opt-in. If any of the following are true, the traditional platform-native implementations (MRI-ruby based on CRuby, Java based on JRuby) are used instead of the new FFI-based implementation: 1. ffi and ffi-compiler gems are not installed 2. PROTOCOL_BUFFERS_RUBY_IMPLEMENTATION environment variable has a value other than FFI (case-insensitive). 3. FFI is unable to load the native library at runtime.

To build this Ruby extension, you will need:

  • Rake
  • Bundler
  • Ruby development headers
  • a C compiler

To Build the JRuby extension, you will need:

  • Maven
  • The latest version of the protobuf java library (see ../java/README.md)
  • Install JRuby via rbenv or RVM

First switch to the desired platform with rbenv or RVM.

Then install the required Ruby gems:

$ gem install bundler
$ bundle

Then build the Gem:

$ rake
$ rake clobber_package gem
$ gem install `ls pkg/google-protobuf-*.gem`

To run the specs:

$ rake test

To run the specs while using the FFI-based implementation:

$ PROTOCOL_BUFFERS_RUBY_IMPLEMENTATION=FFI rake test

This gem includes the upb parsing and serialization library as a single-file amalgamation. It is up-to-date with upb git commit 535bc2fe2f2b467f59347ffc9449e11e47791257.

Alternatively, you can use Bazel to build and to run tests.

From the project root (rather than the ruby directory):

$ bazel test //ruby/tests/...

To run tests against the FFI implementation:

$ bazel test //ruby/tests/... //ruby:ffi_enabled --test_env=PROTOCOL_BUFFERS_RUBY_IMPLEMENTATION=FFI

Version Number Scheme

We are using a version number scheme that is a hybrid of Protocol Buffers' overall version number and some Ruby-specific rules. Gem does not allow re-uploads of a gem with the same version number, so we add a sequence number (“upload version”) to the version. We also format alphabetical tags (alpha, pre, ...) slightly differently, and we avoid hyphens. In more detail:

  • First, we determine the prefix: a Protocol Buffers version “3.0.0-alpha-2” becomes “3.0.0.alpha.2”. When we release 3.0.0, this prefix will be simply “3.0.0”.
  • We then append the upload version: “3.0.0.alpha.2.0” or “3.0.0.0”. If we need to upload a new version of the gem to fix an issue, the version becomes “3.0.0.alpha.2.1” or “3.0.0.1”.
  • If we are working on a prerelease version, we append a prerelease tag: “3.0.0.alpha.3.0.pre”. The prerelease tag comes at the end so that when version numbers are sorted, any prerelease builds are ordered between the prior version and current version.

These rules are designed to work with the sorting rules for Gem::Version: release numbers should sort in actual release order.