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BEP-212: Implement EIP-3529: Reduction in Refunds #212
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pls follow the latest BEP format. |
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Hola la verdad no estoy muy familiarizado con la aplicación y quiero extraer mis fondos
Hola me pueden ayudar haciendo una revisión ya que es la primera vez que hago esto. |
Hi, sorry everyone am so dumb with github i cant get it all properly. Sorry to failed you. Am newbie and still learning and really want to learn and earn. No one can teach me here. 😔
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Subject: Re: [bnb-chain/BEPs] BEP-212: Reduction in Refunds (PR #212)
Hola me pueden ayudar haciendo una revisión ya que es la primera vez que hago esto.
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Bi yardımcı olsanız sıfır bigi para lazim |
Bebek paranin heklendigini anlamıyo mama diye aglıyo |
BEP-212: Reduction in Refunds
Summary
Remove gas refunds for
SELFDESTRUCT
, and reduce gas refunds forSSTORE
to a lower level where the refunds are still substantial, but they are no longer high enough for current "exploits" of the refund mechanism to be viable.Motivation
Gas refunds for
SSTORE
andSELFDESTRUCT
were originally introduced to motivate application developers to write applications that practice "good state hygiene", clearing storage slots and contracts that are no longer needed. However, the benefits of this technique have proven to be far lower than anticipated, and gas refunds have had multiple unexpected harmful consequences:Status
This BEP is a draft. The code for this BEP has already been merged from upstream go-ethereum codebase into BSC node codebase. The work entails enabling EIP-3529 for BSC network configurations and perform hard fork.
Specification
Parameters
FORK_BLOCK
MAX_REFUND_QUOTIENT
For blocks where
block.number >= FORK_BLOCK
, the following changes apply.SELFDESTRUCT
refund.SSTORE_CLEARS_SCHEDULE
(as defined in EIP-2200) withSSTORE_RESET_GAS + ACCESS_LIST_STORAGE_KEY_COST
(4,800 gas as of EIP-2929 + EIP-2930)gas_used // MAX_REFUND_QUOTIENT
Remark: Previously max gas refunded was defined as
gas_used // 2
. Here wename the constant
2
asMAX_REFUND_QUOTIENT
and change its value to5
.Rationale
In EIP-2200, three cases for refunds were introduced:
SSTORE_CLEARS_SCHEDULE
(currently 15,000) gas to the refund counterSSTORE_SET_GAS - SLOAD_GAS
(currently 19,900) gas to the refund counterSSTORE_RESET_GAS - SLOAD_GAS
(currently 4,900) gas to the refund counterOf these three, only (1) enables gastokens and allows a block to expend more gas on execution than the block gas limit. (2) does not have this property, because for the 19,900 refund to be obtained, the same storage slot must have been changed from zero to nonzero previously, costing 20,000 gas. The inability to obtain gas from clearing one storage slot and use it to edit another storage slot means that it cannot be used for gas tokens. Additionally, obtaining the refund requires reverting the effect of the storage write and expansion, so the refunded gas does not contribute to a client's load in processing a block. (3) behaves similarly: the 4,900 refund can only be obtained when 5,000 gas had previously been spent on the same storage slot.
This EIP deals with case (1). We can establish under what conditions a gastoken is nonviable (ie. you cannot get more gas out of a storage slot than you put in) by using a similar "pairing" argument, mapping each refund to a previous expenditure in the same transaction on the same storage slot. lf a storage slot is changed to zero when its original value is nonzero, there are two possibilities:
SSTORE_RESET_GAS + ACCESS_LIST_STORAGE_KEY_COST
minimum cost of reading and editing the storage slot for the first time.SSTORE_CLEARS_SCHEDULE
gas is removed from the refund.For the second and later event, it does not matter what value
SSTORE_CLEARS_SCHEDULE
has, because every refund of that size is paired with a refund removal of the same size. This leaves the first event. For the total gas expended on the slot to be guaranteed to be positive, we needSSTORE_CLEARS_SCHEDULE <= SSTORE_RESET_GAS + ACCESS_LIST_STORAGE_KEY_COST
. And so this EIP simply decreasesSSTORE_CLEARS_SCHEDULE
to the sum of those two costs.One alternative intuition for this EIP is that there will not be a net refund for clearing data that has not yet been read (which is often "useless" data), but there will continue to be a net refund for clearing data that has been read (which is likely to be "useful" data).
Backwards Compatibility
Refunds are currently only applied after transaction execution, so they cannot affect how much gas is available to any particular call frame during execution. Hence, removing them will not break the ability of any code to execute, though it will render some applications economically nonviable.
Gas tokens will become valueless. DeFi arbitrage bots, which today frequently use either established gas token schemes or a custom alternative to reduce on-chain costs, would benefit from rewriting their code to remove calls to these no-longer-functional gas storage mechanisms.
However, fully preserving refunds in the
new = original = 0 != current
case, and keeping some refund in the othernonzero -> zero
cases, ensures that a few key use cases that receive (and deserve) favorable gas cost treatment continue to do so. For example,zero -> nonzero -> zero
storage set patterns continue to cost only ~100 gas. Two important examples of such patterns include:Effect on storage clearing incentives
A criticism of earlier refund removal EIPs (EIP-3298 and EIP-3403) is that these EIPs fully remove the incentive to set a value to zero, encouraging users to not fully clear a storage slot if they expect even the smallest probability that they will want to use that storage slot again.
For example, if you have 1 unit of an ERC20 token and you are giving away or selling your entire balance, you could instead only give away 0.999999 units and leave the remainder behind. If you ever decide to re-acquire more of that token with the same account in the future, you would only have to pay 5000 gas (2100 for the read + 2900 for nonzero-to-nonzero set) for the
SSTORE
instead of 22100 (20000 for the zero-to-nonzero set). Today, this is counterbalanced by the 15000 refund for clearing, so you only have an incentive to do this if you are more than15000 / 17100 = 87.7%
sure that you will use the slot again; with EIP-3298 or EIP-3403 the counterbalancing incentive would not exist, so setting to nonzero is better if your chance of using the slot again is any value greater than 0%.A refund of 4800 gas remains, so there is only be an incentive to keep a storage slot nonzero if you expect a probability of more than
4800 / 17100 = 28.1%
that you will use that slot again. This is not perfect, but it is likely higher than the average person's expectations of later re-acquiring a token with the same address if they clear their entire balance of it.The capping of refunds to 1/5 of gas expended means that this refund can only be used to increase the amount of storage write operations needed to process a block by at most 25%, limiting the ability to use this mechanic for storage-write-focused denial-of-service attacks.
Security Considerations
Refunds are not visible to transaction execution, so this should not have any impact on transaction execution logic.
The maximum amount of gas that can be spent on execution in a block is limited to the gas limit, if we do not count zero-to-nonzero
SSTORE
s that were later reset back to zero. It is okay to not count those, because if such anSSTORE
is reset, storage is not expanded and the client does not need to actually adjust the Merke tree; the gas consumption is refunded, but the effort normally required by the client to process those opcodes is also cancelled. Clients should make sure to not do a storage write ifnew_value = original_value
; this was a prudent optimization since the beginning of Ethereum but it becomes more important now.License
The content is licensed under CC0.