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https://github.com/tornadocash/torn-token.git
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94 lines
3.7 KiB
Solidity
94 lines
3.7 KiB
Solidity
// SPDX-License-Identifier: MIT
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pragma solidity ^0.6.0;
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// A copy from https://github.com/OpenZeppelin/openzeppelin-contracts/pull/2237/files
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/**
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* @dev Elliptic Curve Digital Signature Algorithm (ECDSA) operations.
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*
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* These functions can be used to verify that a message was signed by the holder
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* of the private keys of a given address.
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*/
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library ECDSA {
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/**
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* @dev Returns the address that signed a hashed message (`hash`) with
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* `signature`. This address can then be used for verification purposes.
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*
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* The `ecrecover` EVM opcode allows for malleable (non-unique) signatures:
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* this function rejects them by requiring the `s` value to be in the lower
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* half order, and the `v` value to be either 27 or 28.
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*
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* IMPORTANT: `hash` _must_ be the result of a hash operation for the
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* verification to be secure: it is possible to craft signatures that
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* recover to arbitrary addresses for non-hashed data. A safe way to ensure
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* this is by receiving a hash of the original message (which may otherwise
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* be too long), and then calling {toEthSignedMessageHash} on it.
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*/
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function recover(bytes32 hash, bytes memory signature) internal pure returns (address) {
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// Check the signature length
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if (signature.length != 65) {
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revert("ECDSA: invalid signature length");
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}
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// Divide the signature in r, s and v variables
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bytes32 r;
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bytes32 s;
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uint8 v;
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// ecrecover takes the signature parameters, and the only way to get them
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// currently is to use assembly.
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// solhint-disable-next-line no-inline-assembly
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assembly {
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r := mload(add(signature, 0x20))
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s := mload(add(signature, 0x40))
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v := mload(add(signature, 0x41))
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}
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return recover(hash, v, r, s);
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}
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/**
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* @dev Overload of {ECDSA-recover-bytes32-bytes-} that receives the `v`,
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* `r` and `s` signature fields separately.
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*/
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function recover(
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bytes32 hash,
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uint8 v,
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bytes32 r,
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bytes32 s
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) internal pure returns (address) {
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// EIP-2 still allows signature malleability for ecrecover(). Remove this possibility and make the signature
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// unique. Appendix F in the Ethereum Yellow paper (https://ethereum.github.io/yellowpaper/paper.pdf), defines
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// the valid range for s in (281): 0 < s < secp256k1n ÷ 2 + 1, and for v in (282): v ∈ {27, 28}. Most
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// signatures from current libraries generate a unique signature with an s-value in the lower half order.
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//
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// If your library generates malleable signatures, such as s-values in the upper range, calculate a new s-value
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// with 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141 - s1 and flip v from 27 to 28 or
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// vice versa. If your library also generates signatures with 0/1 for v instead 27/28, add 27 to v to accept
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// these malleable signatures as well.
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require(uint256(s) <= 0x7FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF5D576E7357A4501DDFE92F46681B20A0, "ECDSA: invalid signature 's' value");
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require(v == 27 || v == 28, "ECDSA: invalid signature 'v' value");
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// If the signature is valid (and not malleable), return the signer address
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address signer = ecrecover(hash, v, r, s);
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require(signer != address(0), "ECDSA: invalid signature");
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return signer;
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}
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/**
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* @dev Returns an Ethereum Signed Message, created from a `hash`. This
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* replicates the behavior of the
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* https://github.com/ethereum/wiki/wiki/JSON-RPC#eth_sign[`eth_sign`]
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* JSON-RPC method.
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*
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* See {recover}.
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*/
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function toEthSignedMessageHash(bytes32 hash) internal pure returns (bytes32) {
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// 32 is the length in bytes of hash,
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// enforced by the type signature above
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return keccak256(abi.encodePacked("\x19Ethereum Signed Message:\n32", hash));
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}
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}
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