MCOPY - Memory copying instruction
The EIP-5656 proposal introduces a new memory copying instruction called MCOPY, which aims to provide an efficient way to copy memory areas on the EVM. The motivation behind this proposal is to reduce the overhead associated with memory copying, which is a basic operation but can be costly on the EVM. The proposal suggests that MCOPY can significantly improve the performance of memory copying, especially for languages like Solidity and Vyper, where memory copying is used extensively. The potential impact of this proposal is that it can make building data structures and computationally heavy operations more efficient on Ethereum, while also providing forward protection against future gas cost changes to CALL instructions.
Video
Original
Abstract
Provide an efficient EVM instruction for copying memory areas.
Motivation
Memory copying is a basic operation, yet implementing it on the EVM comes with overhead.
This was recognised and alleviated early on with the introduction of the "identity" precompile, which accomplishes
memory copying by the use of CALL
's input and output memory offsets. Its cost is 15 + 3 * (length / 32)
gas, plus
the call overhead. The identity precompile was rendered ineffective by the raise of the cost of CALL
to 700, but subsequently
the reduction by EIP-2929 made it slightly more economical.
Copying exact words can be accomplished with <offset> MLOAD <offset> MSTORE
or <offset> DUP1 MLOAD DUP2 MSTORE
,
at a cost of at least 12 gas per word. This is fairly efficient if the offsets are known upfront and the copying can be unrolled.
In case copying is implemented at runtime with arbitrary starting offsets, besides the control flow overhead, the offset
will need to be incremented using 32 ADD
, adding at least 6 gas per word.
Copying non-exact words is more tricky, as for the last partial word, both the source and destination needs to be loaded,
masked, or'd, and stored again. This overhead is significant. One edge case is if the last "partial word" is a single byte,
it can be efficiently stored using MSTORE8
.
As example use case, copying 256 bytes costs:
- at least 757 gas pre-EIP-2929 using the identity precompile
- at least 157 gas post-EIP-2929 using the identity precompile
- at least 96 gas using unrolled
MLOAD
/MSTORE
instructions - 27 gas using this EIP
According to an analysis of blocks 10537502 to 10538702, roughly 10.5% of memory copies would have had improved performance with the
availability of an MCOPY
instruction.
Memory copying is used by languages like Solidity and Vyper, where we expect this improvement to provide efficient means of building
data structures, including efficient sliced access and copies of memory objects. Having a dedicated MCOPY
instruction would also add
forward protection against future gas cost changes to CALL
instructions in general.
Having a special MCOPY
instruction makes the job of static analyzers and optimizers easier, since the effects of a CALL
in general
have to be fenced, whereas an MCOPY
instruction would be known to only have memory effects. Even if special cases are added
for precompiles, a future hard fork could change CALL
effects, and so any analysis of code using the identity precompile would only
be valid for a certain range of blocks.
Finally, we expect memory copying to be immensely useful for various computationally heavy operations, such as EVM384, where it is identified as a significant overhead.
Specification
The instruction MCOPY
is introduced at 0x5E
.
Input stack
Stack | Value |
---|---|
top - 0 | dst |
top - 1 | src |
top - 2 | length |
This ordering matches the other copying instructions, i.e. CALLDATACOPY
, RETURNDATACOPY
.
Gas costs
Per yellow paper terminology, it should be considered part of the W_copy
group of opcodes, and follow the gas calculation for W_copy
in the yellow paper. While the calculation in the yellow paper should be considered the final word, for reference, as of time of this writing, that currently means its gas cost is:
words_copied = (length + 31) // 32
g_verylow = 3
g_copy = 3 * words_copied + memory_expansion_cost
gas_cost = g_verylow + g_copy
Output stack
This instruction returns no stack items.
Semantics
It copies length
bytes from the offset pointed at src
to the offset pointed at dst
in memory.
Copying takes place as if an intermediate buffer was used, allowing the destination and source to overlap.
If length > 0
and (src + length
or dst + length
) is beyond the current memory length, the memory is extended with respective gas cost applied.
The gas cost of this instruction mirrors that of other Wcopy
instructions and is Gverylow + Gcopy * ceil(length / 32)
.
Rationale
Production implementation of exact-word memory copying and partial-word memory copying can be found in the Solidity, Vyper and Fe compilers.
With EIP-2929 the call overhead using the identity precompile was reduced from 700 to 100 gas. This is still prohibitive for making the precompile a reasonable alternative again.
Backwards Compatibility
This EIP introduces a new instruction which did not exist previously. Already deployed contracts using this instruction could change their behaviour after this EIP.
Test Cases
MCOPY 0 32 32
- copy 32 bytes from offset 32 to offset 0.
pre (spaces included for readability):
0000000000000000000000000000000000000000000000000000000000000000 000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f
post:
000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f 000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f
gas used: 6
MCOPY 0 0 32
- copy 32 bytes from offset 0 to offset 0.
pre:
0101010101010101010101010101010101010101010101010101010101010101
post:
0101010101010101010101010101010101010101010101010101010101010101
gas used: 6
MCOPY 0 1 8
- copy 8 bytes from offset 1 to offset 0 (overlapping).
pre (space at byte 8):
0001020304050607 080000000000000000000000000000000000000000000000
post:
0102030405060708 080000000000000000000000000000000000000000000000
gas used: 6
MCOPY 1 0 8
- copy 8 bytes from offset 0 to offset 1 (overlapping).
pre (space at byte 8):
0001020304050607 080000000000000000000000000000000000000000000000
post:
0000010203040506 070000000000000000000000000000000000000000000000
gas used: 6
Full test suite
A full suite of tests can be found in the execution spec tests: MCOPY suite.
Security Considerations
Clients should take care that their implementation does not use an intermediate buffer (see for instance that the C stdlib memmove
function does not use an intermediate buffer), as this is a potential Denial of Service (DoS) vector. Most language builtins / standard library functions for moving bytes have the correct performance characteristics here.
This aside, the analysis for Denial of Service (DoS) and memory exhaustion attacks is identical to other opcodes which touch memory, as the memory expansion follows the same pricing rules.
Copyright
Copyright and related rights waived via CC0.
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