ethers.js/lib.esm/hash/message.js

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import { keccak256 } from "../crypto/index.js";
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import { MessagePrefix } from "../constants/index.js";
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import { recoverAddress } from "../transaction/index.js";
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import { concat, toUtf8Bytes } from "../utils/index.js";
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/**
* Computes the [[link-eip-191]] personal-sign message digest to sign.
*
* This prefixes the message with [[MessagePrefix]] and the decimal length
* of %%message%% and computes the [[keccak256]] digest.
*
* If %%message%% is a string, it is converted to its UTF-8 bytes
* first. To compute the digest of a [[DataHexString]], it must be converted
* to [bytes](getBytes).
*
* @example:
* hashMessage("Hello World")
* //_result:
*
* // Hashes the SIX (6) string characters, i.e.
* // [ "0", "x", "4", "2", "4", "3" ]
* hashMessage("0x4243")
* //_result:
*
* // Hashes the TWO (2) bytes [ 0x42, 0x43 ]...
* hashMessage(getBytes("0x4243"))
* //_result:
*
* // ...which is equal to using data
* hashMessage(new Uint8Array([ 0x42, 0x43 ]))
* //_result:
*
*/
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export function hashMessage(message) {
if (typeof (message) === "string") {
message = toUtf8Bytes(message);
}
return keccak256(concat([
toUtf8Bytes(MessagePrefix),
toUtf8Bytes(String(message.length)),
message
]));
}
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/**
* Return the address of the private key that produced
* the signature %%sig%% during signing for %%message%%.
*/
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export function verifyMessage(message, sig) {
const digest = hashMessage(message);
return recoverAddress(digest, sig);
}
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