@tabookey/create2-helper
v0.1.5
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Easily use CREATE2 from Solidity
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Simple CREATE2 Library
What is it
A simple library that allows using CREATE2 in a fully type-safe manner, without dealing with assembly language.
What is CREATE2 ?
Its a way to have an address of a contract, based on its code and parameters - before actually deploying it.
There are several articles that explain in depth what CREATE2
does, and what is it good for,
like Vitalik’s Original EIP and OpenZeppelin’s blog.
What is the problem ?
There is complete lack of support in Solidity...
Enters create2-helper library.
With this library, we create a type-safe factory for our contract.
- For each contract we want to use, we have a factory object.
- The factory has a
create
function with all the parameters of the constructor of our class. - There is a
getAddress
function, with the same parameters, which can return the same address thatcreate
would return - event before the object is created.
Sample code
(the code below runs, and of course, all tests succeed)
import "./MyContract.sol";
import "./MyContractFactory.sol";
import "@openzeppelin/contracts/utils/Address.sol";
contract Sample {
using Address for address;
function testFactory() public {
string memory name = "hello";
uint age = 25;
IMyContractFactory fact = MyContractFactory.createFactory();
address addr1 = fact.getAddress(name,age);
require( !addr1.isContract(), "contract must not exist at start");
MyContract obj = fact.create(name,age);
require( obj.age() == age );
require( address(obj).isContract(), "contract must get deployed by calling create()");
require( addr1 == address(obj), "getAddress() must return the same address as create()" );
}
}
Usage:
- Create your contract (e.g
MyContract
) - Compile it with:
truffle compile
- Add this library with
yarn add @tabookey/create2-helper
(ornpm install
) - Create factory with:
npx createFactory2 ./build/contracts/MyContract.json > contracts/MyContractFactory.json
- Add a code to create the factory:
IMyContractFactory fact = MyContractFactory.createFactory()
note that you need to keep this factory object, since generated addresses depend on it too. - Use the factory whenever you want the future address:
fact.getAddress(...)
- .. or actually to create an instance:
fact.create(...)
Note that you would usually use this tool exactly once for your contract - or when you change the constructor parameters. You don't have to re-generate it when the code of the contract is modified (or even with added/removed methods)
Some salt and pepper…
If you read the CREATE2
definition, you’d notice that something is missing: CREATE2
’s address depends also on a salt value.
Such a salt is required, so we could create multiple distinct objects even with the same set of constructor parameters.
Unfortunately, due to implementation issue (described in the next "Under the Hood" section) our parameter list of
the create
/getAddress
methods need to be strictly the same as the constructor’s parameter list, and we can’t add
an extra salt parameter.
Still, we provide 2 ways in which we still can add some salt:
The factory has a
setSalt
method. You can call it just before creating the object, e.g.:myFactory.setSalt(123).create()
This has the drawback of wasting 20000 gas (you can reduce the waste to 5000, by calling myFactory.setSalt(0) after creating your object).By passing a
-S
parameter to ourcreateFactory2
tool, it will add an extra parameter to the constructor's parameter list. this parameter (aptly named "salt") is used for the address calculation, but is not passed visible to the constructor, and thus acts just like the "standard" CREATE2 salt value. The downside of this method is that the calculation of the address using this "salt" is different than theCREATE2
spec. Our factory will work perfectly with it, but if you want o calculate the address yourself, without the library code, you'll need to be careful to include this "undocumented" parameter.Note that adding the
-S
parameter will also remove thesetSalt
method, since they should not be used together.
Under the hood
If you want to understand how the above factory was created — read on…
As we could see, we created a custom factory interface for each contract — We have to, since it depends on the constructor parameters specific to that contract, and of course, depends on the actual code of that contract.
If you look at the factory code, it looks like this:
library MyContractFactory {
function createFactory() internal returns (IMyContractFactory) {
return IMyContractFactory(address(
new Factory2( type(MyContract).creationCode,
IMyContractFactory(0).create.selector)) );
}
}
At first glance, it looks completely insane: It doesn’t bother to implement our contract-specific interface methods.
It’s a single-line, creating an instance of a library contract (Factory2
), and casting it into an interface it
doesn’t implement ( IMyContractFactory
) .
In order to understand how this works, we need to understand some of the underlying solidity constructs:
Constructor parameters are passed by appending the encoded parameters at the end of the construction code. solidity
provides us the constructor code by calling the cryptic line type(MyContract).constructionCode
.
Function parameters are appended to the function "signature" — a 4-byte identifier. Together (signature and params), they are accessible in every solidity function as msg.data.
The last "magic ingredient" is the default function of the Factory2 class: This method gets called for any invocation of the class with unknown method.
We create an instance of the Factory2
class, and cast it into the factory interface — not bothering to implement
any of the methods. Thus the default function is called, for both create and getAddress (and theoretically,
and other function in the interface)
The Factory2 is constructed with 2 parameters: the initialization code and the "create" function selector (note that knowing its name is "create" is not enough, since a selector encodes the complete list of parameter types too)
when the default function gets invoked, it extracts the parameters, and appends them to the construction code.
Now if the call was originally to the "create" selector, it calls CREATE2 to create that object. Otherwise, it executes the calculation of the address, as per the CREATE2 EIP1014.
The one last magic sauce is to return that address: solidity default function doesn’t allow us to define a eturn value — but we have to, so we resort to some assembly code to the return the generated address…
Standardizing the interface.
We believe that CREATE2 is an important addition to the EVM, and as such, also an important feature of the Solidity language.
While using the above factory is very simple, creating one requires an external tool to expose the constructor's signature, and create the boilerplate code of the factory
We purpose to add these 2 methods to the compiler's "Meta type information" structure, and of course, automatically use the contract's constructor params:
This way, these methods should be accessible as:
type(MyContract).getAddress(params…)
type(MyContract).create.salt(1)(params…)