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ERC: Signed Data Standard #191
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I'm thinking that it may be a good idea to define the initial byte as
Using |
That makes sense, since that still corresponds to an RLP-encoded small integer and thus isn't a valid RLP transaction. |
I updated the proposal to use |
I would propose this to be scoped to / maintained within Solidity. Can this also be simplified to a suggestion for developers who use ecrecover (below)? Might also make sense as a part of metropolis.
This may not be true in metropolis (see: #86). In metropolis account model, it could be that internal calls between accounts are the same as transactions without the '0x0' signature - which is merely a mechanism for backwards compatibility. External transactions may have signed_data as 0x0, but internal transactions may enumerate or pass signed_data for other schemes where the payload begins with 0x19. Overall Concerns:
Nonces introduces other problems and without further defining the nonce mechanism, the proposal doesn't address replay attacks. |
Can you clarify what you mean by this? This is a standard that defines how to encode strings for hashing and signing; while it would be theoretically possible to add this as a feature in Solidity, there doesn't seem a lot of point.
As long as transactions remain RLP-encoded, the prefix will ensure that they can't be replayed against contracts using this scheme.
A nonce isn't part of this EIP. |
Nice write up.
…On Sun, Jan 22, 2017 at 9:52 AM Nick Johnson ***@***.***> wrote:
I would propose this to be scoped to / maintained within Solidity.
Can you clarify what you mean by this? This is a standard that defines how
to encode strings for hashing and signing; while it would be theoretically
possible to add this as a feature in Solidity, there doesn't seem a lot of
point.
This may not be true in metropolis (see: #86
<#86>). In metropolis account
model, it could be that internal calls between accounts are the same as
transactions without the '0x0' signature - which is merely a mechanism for
backwards compatibility.
As long as transactions remain RLP-encoded, the prefix will ensure that
they can't be replayed against contracts using this scheme.
Nonce is application specific
A nonce isn't part of this EIP.
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@holiman Nice initiative! I've also been playing around with this kind access control based on presigned messages. Question about the versioning: Are you considering a central repository of versions and their definitions, once other uses emerge besides multisig? |
I am wondering if the Using proxy contracts (e.g. multisigs) it would make sense to allow not only One example: Assuming a multisig contract wants to approve tokens before executing a contract function, it would have to do 2 transactions using |
Why does this need to be a standard? I think it is a reasonable best practice and contracts that validate pre-signed input should validate that the input was intended for that contract, but I don't see value in enforcing any kind of cross-contract standard. In fact, this standard is effectively a standard meant to ensure that no two signatures are compatible. :) Is the purpose of this EIP issue just to open up some discussion and recommend a best practice or is the intent that it will be formalized/standardized in some way? If the latter, then I'm against it without substantially more argument as to why we need a standard. If the former, I would really love it if there was a better place to put "best practices and recommendations" rather than EIPs. :/ |
Is the intention for this signing format to apply in contexts like signing messages in state channels? If so, there could be a benefit to avoiding replay attacks using EIP 155 values of Even if not, it would be good for the signed data standard to explicitly name valid values of ie~ Is Edit: Also, a standard serialization format with the signature could be valuable, for passing around one blob of a signed message. Probably either: the simple concatenation of bytes: |
What about adding a |
@holiman Thanks for this ERC, I think that your @MicahZoltu The standarization is important so signatures can be verified as safe and understood by wallets. Also through natspec or some compilation magic a signature interface could be created and used in wallets together with (or inside) ABI to interact with a smart-contract, so user can sign a message using UI provided by the wallet software. @carver @alex-miller-0 Will chainId will ever be available in smart-contract? Otherwise we will need to hardcode the chainId in smart contract or passing as a variable in constructor. I agree that reply attack is somewhat important, I see that the reply attack can be performed in 2 cases:
|
Consider the following example: pragma solidity ^0.4.18;
contract PreSignedExample {
function getFooBarHash(bytes data, uint nonce)
internal
pure
returns (bytes32 unsignedDataHash)
{
return keccak256(byte(0x19),byte(0), address(this), data);
}
function submitPreSigned(bytes data, uint nonce, uint8 v, bytes32 r, bytes32 s)
public
{
// ...
sender = ecrecover(getFooBarHash(data, nonce v, r, s);
// ...
}
}
I would suggest something like this: contract PreSignedExample {
mapping (address => uint256) public nonce;
/**
* @notice signs `data` for foo and bar
* @param signer the account being signed (needed to get nonce), maybe msg.signer?
* @param data the data to sign
* @signed header Safety header
* @signed version signature version type
* @signed signAtAddress `address(this)` the address of the contract receving the signature
* @signed data the data provided
* @signed nonce `this.nonce(msg.signer)` unique incremental identifier of this interaction
**/
signature signFooBar(address signer, bytes data)
signs(byte header, byte version, address signAtAddress, bytes data, uint256 nonce)
{
sign(byte(0x19),byte(0), address(this), nonce[signer], data);
}
function submitPreSigned(address signer, bytes data, uint8 v, bytes32 r, bytes32 s)
public
{
// ...
sender = ecrecover(signFooBar(signer, data), v, r, s);
// ...
}
} There are some problems, in the example I think this is interesting to help wallets understand correctly what they are signing, and also to provide a seamless development environment. |
@alex-miller-0 and @3esmit I was just messing with this today. I think the chainId is an important addition, we have to assume 1) There will be multiple public chains for which the same data packet would be useful and 2) Users prefer to have the same addresses cross chain. I defined the chainId in the contract constructor, this is ideal since you could deploy the same contract in any EVM network, therefore it doesn't make sense to hardcode this value. However, the chainId storage variable should be immutable after being set, so the setter should only appear in the constructor. With that said, adding chainId into the With that said, I suggest adding the chainId in that position because it fits in the hierarchy: version->chain->address->data. |
Please reopen this issue and set it as the Discussions-To address for the EIP during Last Call. |
Also, the code in the example does not compile. Also, the code is using an unsupported version of Solidity. The Solidity project recommends you to use the latest version (now 0.8.4) and does not support older versions. |
I have a question re: length of signed message. If I'm reading the spec right, it seems like length of message is ambiguous in two ways:
Using JS in examples, but similar situations exist across languages. SeparatorFor 1) above, consider the following: const message = '0mg'
const length = message.length // 3
const eip191 = '\x19Ethereum Signed Message:\n30mg' The length is 3 but it's ambiguous because the message starts with a digit as well. How do we know what's right in this case? Does it matter? EncodingFor 2) above, the string length and resulting bytes length depend on encoding and normalization. const message1 = 'héllo'
const slength1 = message1.length // 6
const bytesLength1 = new TextEncoder().encode(message1).byteLength // 7
const message2 = 'héllo'.normalize('NFKC')
const slength2 = message2.length // 5
const bytesLength2 = new TextEncoder().encode(message2).byteLength // 6 Depending on multiple factors, we get different results. Different languages have different representations. What is the correct representation that we want to use for the message length? Final noteThe spec also doesn't make it clear (though, maybe i'm missing something) whether or not this matters. Is length taken into account anywhere? Is it just ignored? Can this cause issues? At a minimum, seems like the same message can easily end up encoded differently and result in different signatures depending on language / implementation. |
This is a kind of meta-standard that defines a few different signed message standards. Both issues you are referring to specifically only apply the "E" or I consider this version deprecated, because of these issues, and we warn against using it in the web3.py docs and the eth-account docs. You can always replace a |
How E is 0x45 in hex . i couldn't get the point . can u plz explain me sir .... |
Abstract
This ERC proposes a specification about how to handle signed data in Etherum contracts.
Motivation
Several multisignature wallet implementations have been created which accepts
presigned
transactions. Apresigned
transaction is a chunk of binarysigned_data
, along with signature (r
,s
andv
). The interpretation of thesigned_data
has not been specified, leading to several problems:signed_data
. An Ethereum transaction can be unpacked, into the following components:RLP<nonce, gasPrice, startGas, to, value, data>
(hereby calledRLPdata
),r
,s
andv
. If there are no syntactical constraints onsigned_data
, this means thatRLPdata
can be used as a syntactically validpresigned
transaction.presigned
transaction has not been tied to a particularvalidator
, i.e a specific wallet. Example:A
,B
andC
have the2/3
-walletX
A
,B
andD
have the2/3
-walletY
A
andB
submitespresigned
transaction toX
.X
, and submit toY
.Specification
We propose the following format for
signed_data
Version
0
has<20 byte address>
for the version specific data, and theaddress
is the intended validator. In the case of a Multisig wallet, that is the wallet's own address .The initial
0x19
byte is intended to ensure that thesigned_data
is not valid RLPThat means that any
signed_data
cannot be one RLP-structure, but a 1-byteRLP
payload followed by something else. Thus, any ERC-191signed_data
can never be an Ethereum transaction.Additionally,
0x19
has been chosen because since ethereum/go-ethereum#2940 , the following is prepended before hashing in personal_sign:Using
0x19
thus makes it possible to extend the scheme by defining a version0x45
(E
) to handle these kinds of signatures.Example
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