pragma solidity ^0.5.2; import "./token/MiniMeTokenInterface.sol"; import "./token/ApproveAndCallFallBack.sol"; import "./utils/SafeMath.sol"; import "./utils/BancorFormula.sol"; contract Discover is ApproveAndCallFallBack, BancorFormula { using SafeMath for uint; // Could be any MiniMe token MiniMeTokenInterface SNT; // Total SNT in circulation uint public total; // Parameter to calculate Max SNT any one DApp can stake uint public ceiling; // The max amount of tokens it is possible to stake, as a percentage of the total in circulation uint public max; // Decimal precision for this contract uint public decimals; // Prevents overflows in votesMinted uint public safeMax; // Whether we need more than an id param to identify arbitrary data must still be discussed. struct Data { address developer; bytes32 id; bytes32 metadata; uint balance; uint rate; uint available; uint votesMinted; uint votesCast; uint effectiveBalance; } Data[] public dapps; mapping(bytes32 => uint) public id2index; mapping(bytes32 => bool) existingIDs; event DAppCreated(bytes32 indexed id, uint newEffectiveBalance); event Upvote(bytes32 indexed id, uint newEffectiveBalance); event Downvote(bytes32 indexed id, uint newEffectiveBalance); event Withdraw(bytes32 indexed id, uint newEffectiveBalance); event MetadataUpdated(bytes32 indexed id); constructor(MiniMeTokenInterface _SNT) public { SNT = _SNT; total = 3470483788; ceiling = 588; // See here for more: https://observablehq.com/@andytudhope/dapp-store-snt-curation-mechanism decimals = 1000000; // 4 decimal points for %, 2 because we only use 1/100th of total in circulation max = total.mul(ceiling).div(decimals); safeMax = uint(77).mul(max).div(100); // Limited by accuracy of BancorFormula } /** * @dev Anyone can create a DApp (i.e an arb piece of data this contract happens to care about). * @param _id bytes32 unique identifier. * @param _amount of tokens to stake on initial ranking. * @param _metadata metadata hex string */ function createDApp(bytes32 _id, uint _amount, bytes32 _metadata) external { _createDApp( msg.sender, _id, _amount, _metadata); } /** * @dev Sends SNT directly to the contract, not the developer. This gets added to the DApp's balance, no curve required. * @param _id bytes32 unique identifier. * @param _amount of tokens to stake on DApp's ranking. Used for upvoting + staking more. */ function upvote(bytes32 _id, uint _amount) external { _upvote(msg.sender, _id, _amount); } /** * @dev Sends SNT to the developer and lowers the DApp's effective balance by 1% * @param _id bytes32 unique identifier. * @param _amount uint, included for approveAndCallFallBack */ function downvote(bytes32 _id) external { (,,uint c) = downvoteCost(_id); _downvote(msg.sender, _id, c); } /** * @dev Developers can withdraw an amount not more than what was available of the SNT they originally staked minus what they have already received back in downvotes. * @param _id bytes32 unique identifier. * @param _amount of tokens to withdraw from DApp's overall balance. */ function withdraw(bytes32 _id, uint _amount) external { uint dappIdx = id2index[_id]; Data storage d = dapps[dappIdx]; require(d.id == _id, "Error fetching correct data"); require(msg.sender == d.developer, "Only the developer can withdraw SNT staked on this data"); require(_amount <= d.available, "You can only withdraw a percentage of the SNT staked, less what you have already received"); uint precision; uint result; d.balance = d.balance.sub(_amount); d.rate = decimals.sub(d.balance.mul(decimals).div(max)); d.available = d.balance.mul(d.rate); (result, precision) = BancorFormula.power( d.available, decimals, uint32(decimals), uint32(d.rate)); d.votesMinted = result >> precision; if (d.votesCast > d.votesMinted) { d.votesCast = d.votesMinted; } uint temp1 = d.votesCast.mul(d.rate).mul(d.available); uint temp2 = d.votesMinted.mul(decimals).mul(decimals); uint effect = temp1.div(temp2); d.effectiveBalance = d.balance.sub(effect); require(SNT.transfer(d.developer, _amount), "Transfer failed"); emit Withdraw(_id, d.effectiveBalance); } /** * dev Set the content for the dapp * @param _id bytes32 unique identifier. * @param _metadata metadata info */ function setMetadata(bytes32 _id, bytes32 _metadata) external { uint dappIdx = id2index[_id]; Data storage d = dapps[dappIdx]; require(d.developer == msg.sender, "Only the developer can update the metadata"); d.metadata = _metadata; emit MetadataUpdated(_id); } /** * @notice Support for "approveAndCall". * @param _from Who approved. * @param _amount Amount being approved, needs to be equal `_amount` or `cost`. * @param _token Token being approved, needs to be `SNT`. * @param _data Abi encoded data with selector of `register(bytes32,address,bytes32,bytes32)`. */ function receiveApproval( address _from, uint256 _amount, address _token, bytes calldata _data ) external { require(_token == address(SNT), "Wrong token"); require(_token == address(msg.sender), "Wrong account"); require(_data.length <= 196, "Incorrect data"); bytes4 sig; bytes32 id; uint256 amount; bytes32 metadata; (sig, id, amount, metadata) = abiDecodeRegister(_data); require(_amount == amount, "Wrong amount"); if (sig == bytes4(0x7e38d973)) { _createDApp( _from, id, amount, metadata); } else if (sig == bytes4(0xac769090)) { _downvote(_from, id, amount); } else if (sig == bytes4(0x2b3df690)) { _upvote(_from, id, amount); } else { revert("Wrong method selector"); } } /** * @dev Used in UI to display effect on ranking of user's donation * @param _id bytes32 unique identifier. * @param _amount of tokens to stake/"donate" to this DApp's ranking. * @return effect of donation on DApp's effectiveBalance */ function upvoteEffect(bytes32 _id, uint _amount) external view returns(uint effect) { uint dappIdx = id2index[_id]; Data memory d = dapps[dappIdx]; require(d.id == _id, "Error fetching correct data"); require(d.balance.add(_amount) <= safeMax, "You cannot upvote by this much, try with a lower amount"); // Special case - no downvotes yet cast if (d.votesCast == 0) { return _amount; } uint precision; uint result; uint mBalance = d.balance.add(_amount); uint mRate = decimals.sub(mBalance.mul(decimals).div(max)); uint mAvailable = mBalance.mul(mRate); (result, precision) = BancorFormula.power( mAvailable, decimals, uint32(decimals), uint32(mRate)); uint mVMinted = result >> precision; uint temp1 = d.votesCast.mul(mRate).mul(mAvailable); uint temp2 = mVMinted.mul(decimals).mul(decimals); uint mEffect = temp1.div(temp2); uint mEBalance = mBalance.sub(mEffect); return (mEBalance.sub(d.effectiveBalance)); } /** * @dev Downvotes always remove 1% of the current ranking. * @param _id bytes32 unique identifier. * @return balance_down_by, votes_required, cost */ function downvoteCost(bytes32 _id) public view returns(uint b, uint vR, uint c) { uint dappIdx = id2index[_id]; Data memory d = dapps[dappIdx]; require(d.id == _id, "Error fetching correct data"); uint balanceDownBy = (d.effectiveBalance.div(100)); uint votesRequired = (balanceDownBy.mul(d.votesMinted).mul(d.rate)).div(d.available); uint votesAvailable = d.votesMinted.sub(d.votesCast).sub(votesRequired); uint temp = (d.available.div(votesAvailable)).mul(votesRequired); uint cost = temp.div(decimals); return (balanceDownBy, votesRequired, cost); } function _createDApp( address _from, bytes32 _id, uint _amount, bytes32 _metadata ) internal { require(!existingIDs[_id], "You must submit a unique ID"); require(_amount > 0, "You must spend some SNT to submit a ranking in order to avoid spam"); require (_amount <= safeMax, "You cannot stake more SNT than the ceiling dictates"); uint dappIdx = dapps.length; dapps.length++; Data storage d = dapps[dappIdx]; d.developer = _from; d.id = _id; d.metadata = _metadata; uint precision; uint result; d.balance = _amount; d.rate = decimals.sub((d.balance).mul(decimals).div(max)); d.available = d.balance.mul(d.rate); (result, precision) = BancorFormula.power( d.available, decimals, uint32(decimals), uint32(d.rate)); d.votesMinted = result >> precision; d.votesCast = 0; d.effectiveBalance = _amount; id2index[_id] = dappIdx; existingIDs[_id] = true; require(SNT.allowance(_from, address(this)) >= _amount, "Not enough SNT allowance"); require(SNT.transferFrom(_from, address(this), _amount), "Transfer failed"); emit DAppCreated(_id, d.effectiveBalance); } function _upvote(address _from, bytes32 _id, uint _amount) internal { require(_amount > 0, "You must send some SNT in order to upvote"); uint dappIdx = id2index[_id]; Data storage d = dapps[dappIdx]; require(d.id == _id, "Error fetching correct data"); require(d.balance.add(_amount) <= safeMax, "You cannot upvote by this much, try with a lower amount"); uint precision; uint result; d.balance = d.balance.add(_amount); d.rate = decimals.sub((d.balance).mul(decimals).div(max)); d.available = d.balance.mul(d.rate); (result, precision) = BancorFormula.power( d.available, decimals, uint32(decimals), uint32(d.rate)); d.votesMinted = result >> precision; uint temp1 = d.votesCast.mul(d.rate).mul(d.available); uint temp2 = d.votesMinted.mul(decimals).mul(decimals); uint effect = temp1.div(temp2); d.effectiveBalance = d.balance.sub(effect); require(SNT.allowance(_from, address(this)) >= _amount, "Not enough SNT allowance"); require(SNT.transferFrom(_from, address(this), _amount), "Transfer failed"); emit Upvote(_id, d.effectiveBalance); } function _downvote(address _from, bytes32 _id) internal { uint dappIdx = id2index[_id]; Data storage d = dapps[dappIdx]; require(d.id == _id, "Error fetching correct data"); (uint b, uint vR, uint c) = downvoteCost(_id); d.available = d.available.sub(c); d.votesCast = d.votesCast.add(vR); d.effectiveBalance = d.effectiveBalance.sub(b); require(SNT.allowance(_from, address(this)) >= c, "Not enough SNT allowance"); require(SNT.transferFrom(_from, address(this), c), "Transfer failed"); require(SNT.transfer(d.developer, c), "Transfer failed"); emit Downvote(_id, d.effectiveBalance); } /** * @dev Decodes abi encoded data with selector for "functionName(bytes32,uint256)". * @param _data Abi encoded data. * @return Decoded registry call. */ function abiDecodeRegister( bytes memory _data ) private returns( bytes4 sig, bytes32 id, uint256 amount, bytes32 metadata ) { assembly { sig := mload(add(_data, add(0x20, 0))) id := mload(add(_data, 36)) amount := mload(add(_data, 68)) metadata := mload(add(_data, 100)) } } }