EIP 140: REVERT instruction
Author | Alex Beregszaszi, Nikolai Mushegian |
---|---|
Status | Final |
Type | Standards Track |
Category | Core |
Created | 2017-02-06 |
Simple Summary
The REVERT
instruction provides a way to stop execution and revert state changes, without consuming all provided gas and with the ability to return a reason.
Abstract
The REVERT
instruction will stop execution, roll back all state changes done so far and provide a pointer to a memory section, which can be interpreted as an error code or message. While doing so, it will not consume all the remaining gas.
Motivation
Currently this is not possible. There are two practical ways to revert a transaction from within a contract: running out of gas or executing an invalid instruction. Both of these options will consume all remaining gas. Additionally, reverting an EVM execution means that all changes, including LOGs, are lost and there is no way to convey a reason for aborting an EVM execution.
Specification
On blocks with block.number >= BYZANTIUM_FORK_BLKNUM
, the REVERT
instruction is introduced at 0xfd
. It expects two stack items, the top item is the memory_offset
followed by memory_length
. It does not produce any stack elements because it stops execution.
The semantics of REVERT
with respect to memory and memory cost are identical to those of RETURN
. The sequence of bytes given by memory_offset
and memory_length
is called “error message” in the following.
The effect of REVERT
is that execution is aborted, considered as failed, and state changes are rolled back. The error message will be available to the caller in the returndata buffer and will also be copied to the output area, i.e. it is handled in the same way as the regular return data is handled.
The cost of the REVERT
instruction equals to that of the RETURN
instruction, i.e. the rollback itself does not consume all gas, the contract only has to pay for memory.
In case there is not enough gas left to cover the cost of REVERT
or there is a stack underflow, the effect of the REVERT
instruction will equal to that of a regular out of gas exception, i.e. it will consume all gas.
In the same way as all other failures, the calling opcode returns 0
on the stack following a REVERT
opcode in the callee.
In case REVERT
is used in the context of a CREATE
or CREATE2
call, no code is deployed, 0
is put on the stack and the error message is available in the returndata buffer.
The content of the optionally provided memory section is not defined by this EIP, but is a candidate for another Informational EIP.
Backwards Compatibility
This change has no effect on contracts created in the past unless they contain 0xfd
as an instruction.
Test Cases
6c726576657274656420646174616000557f726576657274206d657373616765000000000000000000000000000000000000600052600e6000fd
should:
- return
0x726576657274206d657373616765
asREVERT
data, - the storage at key
0x0
should be left as unset and - use 20024 gas in total.
Copyright
Copyright and related rights waived via CC0.