以太坊DAO時間鎖定Multisig怎么運用
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Decentralized Autonomous Organization����,簡稱DAO,以太坊中重要的概念����。一般翻譯為去中心化的自治組織。
有時候���,時間也可以用作一種很好的安全機制����。以下代碼基于DAO區(qū)塊鏈大會����,但有不同的變化。不是每個操作需要X個成員批準����,而是任何交易都可以由單個成員發(fā)起����,但它們在執(zhí)行之前都需要最少的延遲����,這取決于交易的支持。提案的批準越多����,就越早執(zhí)行。會員可以對交易進行投票���,這意味著它將取消其他一個已批準的簽名。
時間鎖定Multisig
這意味著如果你沒有緊急程度���,則執(zhí)行任何交易可能只需要一個或兩個簽名���。但是,如果單個密鑰被泄露���,其他密鑰可以將該交易延遲數(shù)月或數(shù)年���,甚至可以阻止其執(zhí)行���。
這個怎么運作
所有密鑰都已批準的交易可以在十分鐘后執(zhí)行(此金額是可配置的),并且每5%未投票的成員每次需要的時間加倍(如果他們主動投票����,則為四倍)反對)。如果它是一個簡單的ether交易���,只要支持投票將其置于所需的時間內(nèi)���,就會執(zhí)行交易,但更復雜的交易將要求使用正確的字節(jié)碼手動執(zhí)行交易����。這些是默認值,但在創(chuàng)建合約時可以設置不同的值:
批準交易的成員數(shù)量:近似時間延遲
代碼:
pragma solidity >=0.4.22 <0.6.0;
contract owned {
address public owner;
constructor() public {
owner = msg.sender;
}
modifier onlyOwner {
require(msg.sender == owner);
_;
}
function transferOwnership(address newOwner) onlyOwner public {
owner = newOwner;
}
}
contract tokenRecipient {
event receivedEther(address sender, uint amount);
event receivedTokens(address _from, uint256 _value, address _token, bytes _extraData);
function receiveApproval(address _from, uint256 _value, address _token, bytes memory _extraData) public {
Token t = Token(_token);
require(t.transferFrom(_from, address(this), _value));
emit receivedTokens(_from, _value, _token, _extraData);
}
function () payable external {
emit receivedEther(msg.sender, msg.value);
}
}
interface Token {
function transferFrom(address _from, address _to, uint256 _value) external returns (bool success);
}
contract TimeLockMultisig is owned, tokenRecipient {
Proposal[] public proposals;
uint public numProposals;
mapping (address => uint) public memberId;
Member[] public members;
uint minimumTime = 10;
event ProposalAdded(uint proposalID, address recipient, uint amount, string description);
event Voted(uint proposalID, bool position, address voter, string justification);
event ProposalExecuted(uint proposalID, int result, uint deadline);
event MembershipChanged(address member, bool isMember);
struct Proposal {
address recipient;
uint amount;
string description;
bool executed;
int currentResult;
bytes32 proposalHash;
uint creationDate;
Vote[] votes;
mapping (address => bool) voted;
}
struct Member {
address member;
string name;
uint memberSince;
}
struct Vote {
bool inSupport;
address voter;
string justification;
}
// Modifier that allows only shareholders to vote and create new proposals
modifier onlyMembers {
require(memberId[msg.sender] != 0);
_;
}
/**
* Constructor
*
* First time setup
*/
constructor(
address founder,
address[] memory initialMembers,
uint minimumAmountOfMinutes
) payable public {
if (founder != address(0)) owner = founder;
if (minimumAmountOfMinutes !=0) minimumTime = minimumAmountOfMinutes;
// It’s necessary to add an empty first member
addMember(address(0), '');
// and let's add the founder, to save a step later
addMember(owner, 'founder');
changeMembers(initialMembers, true);
}
/**
* Add member
*
* @param targetMember address to add as a member
* @param memberName label to give this member address
*/
function addMember(address targetMember, string memory memberName) onlyOwner public
{
uint id;
if (memberId[targetMember] == 0) {
memberId[targetMember] = members.length;
id = members.length++;
} else {
id = memberId[targetMember];
}
members[id] = Member({member: targetMember, memberSince: now, name: memberName});
emit MembershipChanged(targetMember, true);
}
/**
* Remove member
*
* @param targetMember the member to remove
*/
function removeMember(address targetMember) onlyOwner public {
require(memberId[targetMember] != 0);
for (uint i = memberId[targetMember]; i<members.length-1; i++){
members[i] = members[i+1];
memberId[members[i].member] = i;
}
memberId[targetMember] = 0;
delete members[members.length-1];
members.length--;
}
/**
* Edit existing members
*
* @param newMembers array of addresses to update
* @param canVote new voting value that all the values should be set to
*/
function changeMembers(address[] memory newMembers, bool canVote) public {
for (uint i = 0; i < newMembers.length; i++) {
if (canVote)
addMember(newMembers[i], '');
else
removeMember(newMembers[i]);
}
}
/**
* Add Proposal
*
* Propose to send `weiAmount / 1e18` ether to `beneficiary` for `jobDescription`. `transactionBytecode ? Contains : Does not contain` code.
*
* @param beneficiary who to send the ether to
* @param weiAmount amount of ether to send, in wei
* @param jobDescription Description of job
* @param transactionBytecode bytecode of transaction
*/
function newProposal(
address beneficiary,
uint weiAmount,
string memory jobDescription,
bytes memory transactionBytecode
)
onlyMembers public
returns (uint proposalID)
{
proposalID = proposals.length++;
Proposal storage p = proposals[proposalID];
p.recipient = beneficiary;
p.amount = weiAmount;
p.description = jobDescription;
p.proposalHash = keccak256(abi.encodePacked(beneficiary, weiAmount, transactionBytecode));
p.executed = false;
p.creationDate = now;
emit ProposalAdded(proposalID, beneficiary, weiAmount, jobDescription);
numProposals = proposalID+1;
vote(proposalID, true, '');
return proposalID;
}
/**
* Add proposal in Ether
*
* Propose to send `etherAmount` ether to `beneficiary` for `jobDescription`. `transactionBytecode ? Contains : Does not contain` code.
* This is a convenience function to use if the amount to be given is in round number of ether units.
*
* @param beneficiary who to send the ether to
* @param etherAmount amount of ether to send
* @param jobDescription Description of job
* @param transactionBytecode bytecode of transaction
*/
function newProposalInEther(
address beneficiary,
uint etherAmount,
string memory jobDescription,
bytes memory transactionBytecode
)
onlyMembers public
returns (uint proposalID)
{
return newProposal(beneficiary, etherAmount * 1 ether, jobDescription, transactionBytecode);
}
/**
* Check if a proposal code matches
*
* @param proposalNumber ID number of the proposal to query
* @param beneficiary who to send the ether to
* @param weiAmount amount of ether to send
* @param transactionBytecode bytecode of transaction
*/
function checkProposalCode(
uint proposalNumber,
address beneficiary,
uint weiAmount,
bytes memory transactionBytecode
)
view public
returns (bool codeChecksOut)
{
Proposal storage p = proposals[proposalNumber];
return p.proposalHash == keccak256(abi.encodePacked(beneficiary, weiAmount, transactionBytecode));
}
/**
* Log a vote for a proposal
*
* Vote `supportsProposal? in support of : against` proposal #`proposalNumber`
*
* @param proposalNumber number of proposal
* @param supportsProposal either in favor or against it
* @param justificationText optional justification text
*/
function vote(
uint proposalNumber,
bool supportsProposal,
string memory justificationText
)
onlyMembers public
{
Proposal storage p = proposals[proposalNumber]; // Get the proposal
require(p.voted[msg.sender] != true); // If has already voted, cancel
p.voted[msg.sender] = true; // Set this voter as having voted
if (supportsProposal) { // If they support the proposal
p.currentResult++; // Increase score
} else { // If they don't
p.currentResult--; // Decrease the score
}
// Create a log of this event
emit Voted(proposalNumber, supportsProposal, msg.sender, justificationText);
// If you can execute it now, do it
if ( now > proposalDeadline(proposalNumber)
&& p.currentResult > 0
&& p.proposalHash == keccak256(abi.encodePacked(p.recipient, p.amount, ''))
&& supportsProposal) {
executeProposal(proposalNumber, '');
}
}
function proposalDeadline(uint proposalNumber) public view returns(uint deadline) {
Proposal storage p = proposals[proposalNumber];
uint factor = calculateFactor(uint(p.currentResult), (members.length - 1));
return p.creationDate + uint(factor * minimumTime * 1 minutes);
}
function calculateFactor(uint a, uint b) public pure returns (uint factor) {
return 2**(20 - (20 * a)/b);
}
/**
* Finish vote
*
* Count the votes proposal #`proposalNumber` and execute it if approved
*
* @param proposalNumber proposal number
* @param transactionBytecode optional: if the transaction contained a bytecode, you need to send it
*/
function executeProposal(uint proposalNumber, bytes memory transactionBytecode) public {
Proposal storage p = proposals[proposalNumber];
require(now >= proposalDeadline(proposalNumber) // If it is past the voting deadline
&& p.currentResult > 0 // and a minimum quorum has been reached
&& !p.executed // and it is not currently being executed
&& checkProposalCode(proposalNumber, p.recipient, p.amount, transactionBytecode)); // and the supplied code matches the proposal...
p.executed = true;
(bool success, ) = p.recipient.call.value(p.amount)(transactionBytecode);
require(success);
// Fire Events
emit ProposalExecuted(proposalNumber, p.currentResult, proposalDeadline(proposalNumber));
}
}部署和使用
像以前一樣在這些教程上部署該代碼���。在部署參數(shù)上,將最小時間留空將默認為30分鐘����,如果你想要更快的鎖定時間,則放1分鐘���。上傳后����,執(zhí)行“添加成員”功能以添加組的新成員����,他們可以是你認識的其他人����,也可以是不同計算機上的帳戶或離線存儲。
設置為所有者owner的帳戶非常強大���,因為它可以隨意添加或刪除成員���。因此���,在添加主成員后,我們建議你通過執(zhí)行Transfer Membership功能將owner設置為另一個帳戶���。如果你希望對所有成員的添加或刪除進行投票���,則將其設置為multisig本身,就像任何其他交易一樣����。另一種方法是將其設置為另一個受信任的multisig錢包,如果你希望永久修復成員數(shù)����,則可以設置為0x000。請記住���,此合約上的資金僅與“所有者”帳戶一樣安全����。
與上述任何DAO一樣���,此合約可以持有以太幣���,任何基于以太坊的代幣并執(zhí)行任何合約���。為此,請檢查如何在國會DAO上執(zhí)行復雜的提案����。
警告和改進
為簡單起見,對提案的投票僅僅算得少一點支持���。如果你愿意���,你可以玩弄負面投票更重要的想法,但這意味著少數(shù)成員可以對任何提議的交易擁有有效的否決權����!
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