mirror of https://github.com/status-im/EIPs.git
122 lines
5.9 KiB
Markdown
122 lines
5.9 KiB
Markdown
---
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EIP: 5
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Title: Gas Usage for `RETURN` and `CALL*`
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Author: Christian Reitwiessner <c@ethdev.com>
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Status: Draft
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Type: Standards Track
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Layer: Consensus (hard-fork)
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Created: 2015-11-22
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---
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### Abstract
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This EIP makes it possible to call functions that return strings and other dynamically-sized arrays.
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Currently, when another contract / function is called from inside the Ethereum Virtual Machine,
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the size of the output has to be specified in advance. It is of course possible to give a larger
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size, but gas also has to be paid for memory that is not written to, which makes returning
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dynamically-sized data both costly and inflexible to the extent that it is actually unusable.
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The solution proposed in this EIP is to charge gas only for memory that is actually written to at
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the time the `CALL` returns.
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### Specification
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The gas and memory semantics for `CALL`, `CALLCODE` and `DELEGATECALL` (called later as `CALL*`)
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are changed in the following way (`CREATE` does not write to memory and is thus unaffected):
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Suppose the arguments to `CALL*` are `gas, address, value, input_start, input_size, output_start, output_size`,
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then, at the beginning of the opcode, gas for growing memory is only charged for `input_start + input_size`, but not
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for `output_start + output_size`.
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If the called contract returns data of size `n`, the memory of the calling contract is grown to
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`output_start + min(output_size, n)` (and the calling contract is charged gas for that) and the
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output is written to the area `[output_start, output_start + min(n, output_size))`.
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The calling contract can run out of gas both at the beginning of the opcode and at the end
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of the opcode.
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After the call, the `MSIZE` opcode should return the size the memory was actually grown to.
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### Motivation
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In general, it is good practise to reserve a certain memory area for the output of a call,
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because letting a subroutine write to arbitrary areas in memory might be dangerous. On the
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other hand, it is often hard to know the output size of a call prior to performing the call:
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The data could be in the storage of another contract which is generally inaccessible and
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determining its size would require another call to that contract.
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Furthermore, charging gas for areas of memory that are not actually written to is unnecessary.
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This proposal tries to solve both problems: A caller can choose to provide a gigantic area of
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memory at the end of their memory area. The callee can "write" to it by returning and the
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caller is only charged for the memory area that is actually written.
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This makes it possible to return dynamic data like strings and dynamically-sized arrays
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in a very flexible way. It is even possible to determine the size of the returned data:
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If the caller uses `output_start = MSIZE` and `output_size = 2**256-1`, the area of
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memory that was actually written to is `(output_start, MSIZE)` (here, `MSIZE` as evaluated
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after the call). This is important because it allows "proxy" contracts
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which call other contracts whose interface they do not know and just return their output,
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i.e. they both forward the input and the output. For this, it is important that the caller
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(1) does not need to know the size of the output in advance and (2) can determine the
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size of the output after the call.
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### Rationale
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This way of dealing with the problem requires a minimal change to the Ethereum Virtual Machine.
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Other means of achieving a similar goal would have changed the opcodes themselves or
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the number of their arguments. Another possibility would have been to only change the
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gas mechanics if `output_size` is equal to `2**256-1`. Since the main difficulty in the
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implementation is that memory has to be enlarged at two points in the code around `CALL`,
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this would not have been a simplification.
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At an earlier stage, it was proposed to also add the size of the returned data on the stack,
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but the `MSIZE` mechanism described above should be sufficient and is much better
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backwards compatible.
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Some comments are available at https://github.com/ethereum/EIPs/issues/8
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### Backwards Compatibility
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This proposal changes the semantics of contracts because contracts can access the gas counter
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and the size of memory.
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On the other hand, it is unlikely that existing contracts will suffer from this change due to
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the following reasons:
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Gas:
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The VM will not charge more gas than before. Usually, contracts are written in a way such
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that their semantics do not change if they use up less gas. If more gas were used, contracts
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might go out-of-gas if they perform a tight estimation for gas needed by sub-calls. Here,
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contracts might only return more gas to their callers.
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Memory size:
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The `MSIZE` opcode is typically used to allocate memory at a previously unused spot.
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The change in semantics affects existing contracts in two ways:
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1. Overlaps in allocated memory. By using `CALL`, a contract might have wanted to allocate
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a certain slice of memory, even if that is not written to by the called contract.
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Subsequent uses of `MSIZE` to allocate memory might overlap with this slice that is
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now smaller than before the change. It is though unlikely that such contracts exist.
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2. Memory addresses change. Rather general, if memory is allocated using `MSIZE`, the
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addresses of objects in memory will be different after the change. Contract should
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all be written in a way, though, such that objects in memory are _relocatable_,
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i.e. their absolute position in memory and their relative position to other
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objects does not matter. This is of course not the case for arrays, but they
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are allocated in a single allocation and not with an intermidiate `CALL`.
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### Implementation
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VM implementers should take care not to grow the memory until the end of the call and after a check that sufficient
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gas is still available. Typical uses of the EIP include "reserving" `2**256-1` bytes of memory for the output.
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Python implementation:
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old: http://vitalik.ca/files/old.py
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new: http://vitalik.ca/files/new.py
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