Etheruby is a library including a client for the JSON-RPC API and a Object-Contract Mapper to interact with smart-contracts.


Keywords
contract-mapper, ethereum, ruby
License
MIT
Install
gem install etheruby -v 2.2.0

Documentation

Etheruby

Build Status codecov

Etheruby is a library including a client for the JSON-RPC API and a Object-Contract Mapper to interact with smart-contracts on the Ethereum blockchain.

Installation

gem install etheruby

or add this into your Gemfile :

gem 'etheruby'

And then run bundle install.

Usage with Ruby on Rails

You can use Etheruby from Ruby on Rails. Just add the gem to your Gemfile and then run the rake etheruby:setup task. It will create a new folder under app/contracts and create the default app/config/etheruby.yml configuration file.

The client

The client is pretty straightforward to use. It uses method_missing to map all the possible calls. So, if it exists here : https://github.com/ethereum/wiki/wiki/JSON-RPC it works here.

balance = Etheruby::Client.eth.getBalance('0x407d73d8a49eeb85d32cf465507dd71d507100c1','latest')
vers = Etheruby::Client.net.version
sync = Etheruby::Client.eth.syncing

The OCM : Object-Contract Mapper

Etheruby is the first project of its kind. It aims to provide an easy and elegant way to describe a contract, and a native way to interact with it.

I called it an OCM for Object-Contract Mapper, since, like an ODM or an ORM, it maps another data type to ruby object to make it easier to manipulate it.

Let's review an example. Given the contract :

contract Foo {
  function bar(fixed[2] xy) {}
  function baz(uint32 x, bool y) returns (bool r) { r = x > 32 || y; }
  function sam(bytes name, bool z, uint[] data) {}
  function f(uint,uint32[],bytes10,bytes) {}
  function thisIsCamelCase() {}
}

Thus for our Foo if we wanted to describe it with Etheruby, we would simply create a Foo class and make it inherit from the Etheruby::Contract class :

class Foo
  include Etheruby::Contract
  at_address 0x57eb1e64d972d9937c6f6f07a865e91608252c97
  contract_method :bar do
    parameters array(:fixed128x128, 2)
  end
  contract_method :baz do
    parameters :uint32, :bool
    returns :bool
  end
  contract_method :sam do
    parameters :bytes, :bool, array(:uint256)
    returns :bool
  end
  contract_method :f do
    parameters :uint256, array(:uint32), :bytes10, :bytes
  end
  contract_method :thisIsCamelCase
end

Now, we can use the Contract like if it was a ruby object. All methods on the contract are static methods on the ruby object.

Here is the list of the arguments you can use in the method describer :

Keyword Type Semantic
from String Set the from address for this method call.
parameters Array Set the types of arguments this method can receive.
returns Array Set the return types.
value FixNum Set the value of ether sent with this method.
gas FixNum Sets the gas to use with this method.
gas_price FixNum Set the gas_price to use with this method.

If your method doesn't take any argument and doesn't return anything, you can remove the block after the keyword.

Foo.bar([2.125, 8.5])
Foo.baz(69,true)
Foo.sam("dave".codepoints, true, [1,2,3])
Foo.f(0x123, [0x456, 0x789], "1234567890".codepoints, "Hello, world!".codepoints)
Foo.this_is_camel_case
Foo.thisIsCamelCase

Return types of the method are also casted to native ruby types, therefore you have a full interoperability between the contract execution and the ruby program that consumes it.

The last two calls : this_is_camel_case / thisIsCamelCase are bound to the same method. this_is_camel_case will be resolved to the thisIsCamelCase.

If you return multiple values, like f(uint a) returns (uint b, string c) you can create named variables in the contract definition to easily access them :

contract_method :f do
  parameters :uint256
  returns b: :uint,
          c: :string
end
response = Contract.f(1)
response.b
response.c
...

Contract instances

Maybe you have different contract instances, that is, the same same smart contract but in different addresses. Then you have to include ContractInstance:

class Foo
  include Etheruby::ContractInstance
  contract_method :bar do
    parameters array(:fixed128x128, 2)
  end
  contract_method :baz do
    parameters :uint32, :bool
    returns :bool
  end
  contract_method :sam do
    parameters :bytes, :bool, array(:uint256)
    returns :bool
  end
  contract_method :f do
    parameters :uint256, array(:uint32), :bytes10, :bytes
  end
  contract_method :thisIsCamelCase
end

In this case instead of calling at_address in the class definition, you must pass the address when you build the instance:

foo = Foo.new(0x57eb1e64d972d9937c6f6f07a865e91608252c97)
foo.bar([2.125, 8.5])
foo.sam("dave".codepoints, true, [1,2,3])

Issues

A major issue have been found in V1 API design, due to this, the compatibility is not assured between V1 and V2 : note that inheritance is not working anymore. Now, you must use the include method like this :

  class Foo
    include Etheruby::Contract
  end

Known issue : The way on Ruby on rails to load Contracts from /app/contracts is not perfect. You must relaunch rails s after a contract definition modification. If somebody can help me to achieve this in a cleaner way, I'll be happy ;).

If you find an issue, please open an issue here, on Github.

How to contribute ?

If you want to help this project, please check the opened issues on Github, fork this repo, fix the issue and do a pull request here. Do not mess with the version of the gem, I'll handle it.

If you don't want to get involved in the developpement of Etheruby but you want to help, I love beers and pizza, and I love Ethers. Here is my Ethereum address : 0x5124e63dec9acc65203ea8e5f98d4d151c39889f