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tl;dr
- EELS is an execution layer reference implementation in Python.
- It is updated with mainnet.
- It fills exams, and passes current ones.
- There’s an instance of an EIP applied in EELS beneath.
Introduction
After greater than a yr in growth, we’re happy to publicly introduce the Ethereum Execution Layer Specification (affectionately often known as EELS.) EELS is a Python reference implementation of the core parts of an Ethereum execution consumer centered on readability and readability. Supposed as a religious successor to the Yellow Paper that is extra programmer pleasant and up-to-date with post-merge forks, EELS can fill and execute state exams, comply with mainnet1, and is a superb place to prototype new EIPs.
EELS offers full snapshots of the protocol at every fork—together with upcoming ones—making it a lot simpler to comply with than EIPs (which solely suggest modifications) and manufacturing shoppers (which regularly combine a number of forks in the identical codepath.)
Historical past
Starting in 2021, as a challenge of ConsenSys' Quilt crew and the Ethereum Basis, the eth1.0-spec (because it was recognized then) was impressed by the sheer frustration of getting to decipher the cryptic notation of the Yellow Paper (Determine 1) to grasp the precise conduct of an EVM instruction.
Drawing on the profitable Consensus Layer Specification, we got down to create an identical executable specification for the execution layer.
Current
Right this moment, EELS is consumable as a conventional Python repository and as rendered documentation. It is nonetheless a bit tough across the edges, and would not present a lot in the way in which of annotations or English explanations for what numerous items do, however these will include time.
It is simply Python
Hopefully a side-by-side comparability of the Yellow Paper and the equal code from EELS can present why EELS is a helpful complement to it:
def less_than(evm: Evm) -> None: # STACK left = pop(evm.stack) proper = pop(evm.stack) # GAS charge_gas(evm, GAS_VERY_LOW) # OPERATION consequence = U256(left < proper) push(evm.stack, consequence) # PROGRAM COUNTER evm.computer += 1
Whereas Determine 2 could be digestible to lecturers, Determine 3 is indisputably extra pure to programmers.
This is a video walk-through of including a easy EVM instruction if that is your form of factor.
Writing Assessments
It bears repeating: EELS is simply common Python. It may be examined like another Python library! Along with your entire ethereum/exams suite, we even have a choice of pytest exams.
With a little bit assist from execution-spec-tests, any exams written for EELS can be utilized to manufacturing shoppers!2
Displaying Variations
Having snapshots at every fork is nice for a wise contract developer popping in to see the specifics of how an EVM instruction works, however is not very useful for consumer builders themselves. For them, EELS can show the variations between forks:
An Instance EIP
EIP-6780 is the primary EIP to get an EELS implementation offered by the writer, Guillaume Ballet! Let’s have a look.
First, we introduce a created_contracts variable to the EVM with transaction-level scope:
@dataclass class Atmosphere: caller: Deal with block_hashes: Record[Hash32] origin: Deal with coinbase: Deal with quantity: Uint base_fee_per_gas: Uint gas_limit: Uint gas_price: Uint time: U256 prev_randao: Bytes32 state: State chain_id: U64 + created_contracts: Set[Address]
Second, we observe which contracts have been created in every transaction:
+ evm.env.created_contracts.add(contract_address)
Lastly, we modify selfdestruct so it solely works for contracts famous in created_contracts:
- # register account for deletion - evm.accounts_to_delete.add(originator) - + # Solely proceed if the contract has been created in the identical tx + if originator in evm.env.created_contracts: + + # register account for deletion + evm.accounts_to_delete.add(originator) +
Future
We wish EELS to grow to be the default solution to specify Core EIPs, the primary place EIP authors go to prototype their proposals, and the absolute best reference for the way Ethereum works.
If you happen to’re keen on contributing or prototyping your EIP, be part of us on the #specs channel or seize a difficulty from our repository.
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