Contract Source Code:
File 1 of 1 : Eth2Plus
pragma solidity >=0.4.23 <0.6.0;
contract Eth2Plus {
struct User {
uint id;
address referrer;
uint partnersCount;
mapping(uint8 => bool) activeX3Levels;
mapping(uint8 => bool) activeX6Levels;
mapping(uint8 => X3) x3Matrix;
mapping(uint8 => X6) x6Matrix;
}
struct X3 {
address currentReferrer;
address[] referrals;
bool blocked;
uint reinvestCount;
}
struct X6 {
address currentReferrer;
address[] firstLevelReferrals;
address[] secondLevelReferrals;
bool blocked;
uint reinvestCount;
address closedPart;
}
uint8 public constant LAST_LEVEL = 12;
mapping(address => User) public users;
mapping(uint => address) public idToAddress;
mapping(uint => address) public userIds;
mapping(address => uint) public balances;
mapping(address=>mapping(uint=>mapping(uint=>uint256))) public matrixLevelReward;
mapping(address=>mapping(uint=>uint256)) public matrixReward;
uint public lastUserId = 2;
address public starNode;
address owner;
address truncateNode;
mapping(uint8 => uint) public levelPrice;
uint256 public global1FallUid=0;
uint256 public global2FallUid=11;
mapping(uint256=>uint256) public globalFallCount;
uint256 public globalFallType=1;
event Registration(address indexed user, address indexed referrer, uint indexed userId, uint referrerId);
event Reinvest(address indexed user, address indexed currentReferrer, address indexed caller, uint8 matrix, uint8 level);
event Upgrade(address indexed user, address indexed referrer, uint8 matrix, uint8 level);
event NewUserPlace(address indexed user, address indexed referrer, uint8 matrix, uint8 level, uint8 place);
event MissedEthReceive(address indexed receiver, address indexed from, uint8 matrix, uint8 level);
event SentExtraEthDividends(address indexed from, address indexed receiver, uint8 matrix, uint8 level);
constructor(address starNodeAddress) public {
levelPrice[1] = 0.025 ether;
for (uint8 i = 2; i <= LAST_LEVEL; i++) {
levelPrice[i] = levelPrice[i-1] * 2;
}
starNode = starNodeAddress;
truncateNode = starNodeAddress;
owner=msg.sender;
User memory user = User({
id: 1,
referrer: address(0),
partnersCount: uint(0)
});
users[starNodeAddress] = user;
idToAddress[1] = starNodeAddress;
for (uint8 i = 1; i <= LAST_LEVEL; i++) {
users[starNodeAddress].activeX3Levels[i] = true;
users[starNodeAddress].activeX6Levels[i] = true;
}
userIds[1] = starNodeAddress;
}
function globalfall(uint8 level) internal{
if(globalFallType==1){
globalFallType=2;
if(global1FallUid>=10){
global1FallUid=0;
}
address receiver=owner;
if(lastUserId>global1FallUid+1){
global1FallUid++;
receiver=userIds[global1FallUid];
}
sendETHDividendsToGobalFall( receiver,level);
}else{
globalFallType=1;
address receiver=owner;
if(lastUserId>global2FallUid+1){
if(globalFallCount[global2FallUid]>=2){
global2FallUid++;
}
receiver=userIds[global2FallUid];
globalFallCount[global2FallUid]=globalFallCount[global2FallUid]+1;
}
sendETHDividendsToGobalFall( receiver,level);
}
}
function() external payable {
if(msg.data.length == 0) {
return registration(msg.sender, starNode);
}
registration(msg.sender, bytesToAddress(msg.data));
}
function registrationExt(address referrerAddress) external payable {
registration(msg.sender, referrerAddress);
}
function buyNewLevel(uint8 matrix, uint8 level) external payable {
require(isUserExists(msg.sender), "user is not exists. Register first.");
require(matrix == 1 || matrix == 2, "invalid matrix");
require(msg.value == levelPrice[level], "invalid price");
require(level > 1 && level <= LAST_LEVEL, "invalid level");
if (matrix == 1) {
require(!users[msg.sender].activeX3Levels[level], "level already activated");
if (users[msg.sender].x3Matrix[level-1].blocked) {
users[msg.sender].x3Matrix[level-1].blocked = false;
}
address freeX3Referrer = findFreeX3Referrer(msg.sender, level);
users[msg.sender].x3Matrix[level].currentReferrer = freeX3Referrer;
users[msg.sender].activeX3Levels[level] = true;
updateX3Referrer(msg.sender, freeX3Referrer, level);
emit Upgrade(msg.sender, freeX3Referrer, 1, level);
} else {
require(!users[msg.sender].activeX6Levels[level], "level already activated");
if (users[msg.sender].x6Matrix[level-1].blocked) {
users[msg.sender].x6Matrix[level-1].blocked = false;
}
address freeX6Referrer = findFreeX6Referrer(msg.sender, level);
users[msg.sender].activeX6Levels[level] = true;
updateX6Referrer(msg.sender, freeX6Referrer, level,false);
emit Upgrade(msg.sender, freeX6Referrer, 2, level);
}
}
function registration(address userAddress, address referrerAddress) private {
require(msg.value == 0.05 ether, "registration cost 0.05");
require(!isUserExists(userAddress), "user exists");
require(isUserExists(referrerAddress), "referrer not exists");
uint32 size;
assembly {
size := extcodesize(userAddress)
}
require(size == 0, "cannot be a contract");
User memory user = User({
id: lastUserId,
referrer: referrerAddress,
partnersCount: 0
});
users[userAddress] = user;
idToAddress[lastUserId] = userAddress;
users[userAddress].referrer = referrerAddress;
users[userAddress].activeX3Levels[1] = true;
users[userAddress].activeX6Levels[1] = true;
userIds[lastUserId] = userAddress;
lastUserId++;
users[referrerAddress].partnersCount++;
address freeX3Referrer = findFreeX3Referrer(userAddress, 1);
users[userAddress].x3Matrix[1].currentReferrer = freeX3Referrer;
updateX3Referrer(userAddress, freeX3Referrer, 1);
updateX6Referrer(userAddress, findFreeX6Referrer(userAddress, 1), 1,false);
emit Registration(userAddress, referrerAddress, users[userAddress].id, users[referrerAddress].id);
}
function updateX3Referrer(address userAddress, address referrerAddress, uint8 level) private {
users[referrerAddress].x3Matrix[level].referrals.push(userAddress);
if (users[referrerAddress].x3Matrix[level].referrals.length < 3) {
emit NewUserPlace(userAddress, referrerAddress, 1, level, uint8(users[referrerAddress].x3Matrix[level].referrals.length));
return sendETHDividends(referrerAddress, userAddress, 1, level);
}
emit NewUserPlace(userAddress, referrerAddress, 1, level, 3);
//close matrix
users[referrerAddress].x3Matrix[level].referrals = new address[](0);
if (!users[referrerAddress].activeX3Levels[level+1] && level != LAST_LEVEL) {
users[referrerAddress].x3Matrix[level].blocked = true;
}
//create new one by recursion
if (referrerAddress != starNode) {
//check referrer active level
address freeReferrerAddress = findFreeX3Referrer(referrerAddress, level);
if (users[referrerAddress].x3Matrix[level].currentReferrer != freeReferrerAddress) {
users[referrerAddress].x3Matrix[level].currentReferrer = freeReferrerAddress;
}
users[referrerAddress].x3Matrix[level].reinvestCount++;
emit Reinvest(referrerAddress, freeReferrerAddress, userAddress, 1, level);
updateX3Referrer(referrerAddress, freeReferrerAddress, level);
} else {
sendETHDividends(starNode, userAddress, 1, level);
users[starNode].x3Matrix[level].reinvestCount++;
emit Reinvest(starNode, address(0), userAddress, 1, level);
}
}
function updateX6Referrer(address userAddress, address referrerAddress, uint8 level,bool needRSkipecursionDivide) private {
require(users[referrerAddress].activeX6Levels[level], "500. Referrer level is inactive");
if (users[referrerAddress].x6Matrix[level].firstLevelReferrals.length < 2) {
users[referrerAddress].x6Matrix[level].firstLevelReferrals.push(userAddress);
emit NewUserPlace(userAddress, referrerAddress, 2, level, uint8(users[referrerAddress].x6Matrix[level].firstLevelReferrals.length));
//set current level
users[userAddress].x6Matrix[level].currentReferrer = referrerAddress;
if (referrerAddress == starNode) {
return sendETHDividends(referrerAddress, userAddress, 2, level);
}
address ref = users[referrerAddress].x6Matrix[level].currentReferrer;
users[ref].x6Matrix[level].secondLevelReferrals.push(userAddress);
uint len = users[ref].x6Matrix[level].firstLevelReferrals.length;
if ((len == 2) &&
(users[ref].x6Matrix[level].firstLevelReferrals[0] == referrerAddress) &&
(users[ref].x6Matrix[level].firstLevelReferrals[1] == referrerAddress)) {
if (users[referrerAddress].x6Matrix[level].firstLevelReferrals.length == 1) {
emit NewUserPlace(userAddress, ref, 2, level, 5);
} else {
emit NewUserPlace(userAddress, ref, 2, level, 6);
}
} else if ((len == 1 || len == 2) &&
users[ref].x6Matrix[level].firstLevelReferrals[0] == referrerAddress) {
if (users[referrerAddress].x6Matrix[level].firstLevelReferrals.length == 1) {
emit NewUserPlace(userAddress, ref, 2, level, 3);
} else {
emit NewUserPlace(userAddress, ref, 2, level, 4);
}
} else if (len == 2 && users[ref].x6Matrix[level].firstLevelReferrals[1] == referrerAddress) {
if (users[referrerAddress].x6Matrix[level].firstLevelReferrals.length == 1) {
emit NewUserPlace(userAddress, ref, 2, level, 5);
} else {
emit NewUserPlace(userAddress, ref, 2, level, 6);
}
}
return updateX6ReferrerSecondLevel(userAddress, ref, level,needRSkipecursionDivide);
}
users[referrerAddress].x6Matrix[level].secondLevelReferrals.push(userAddress);
if (users[referrerAddress].x6Matrix[level].closedPart != address(0)) {
if ((users[referrerAddress].x6Matrix[level].firstLevelReferrals[0] ==
users[referrerAddress].x6Matrix[level].firstLevelReferrals[1]) &&
(users[referrerAddress].x6Matrix[level].firstLevelReferrals[0] ==
users[referrerAddress].x6Matrix[level].closedPart)) {
updateX6(userAddress, referrerAddress, level, true);
return updateX6ReferrerSecondLevel(userAddress, referrerAddress, level,needRSkipecursionDivide);
} else if (users[referrerAddress].x6Matrix[level].firstLevelReferrals[0] ==
users[referrerAddress].x6Matrix[level].closedPart) {
updateX6(userAddress, referrerAddress, level, true);
return updateX6ReferrerSecondLevel(userAddress, referrerAddress, level,needRSkipecursionDivide);
} else {
updateX6(userAddress, referrerAddress, level, false);
return updateX6ReferrerSecondLevel(userAddress, referrerAddress, level,needRSkipecursionDivide);
}
}
if (users[referrerAddress].x6Matrix[level].firstLevelReferrals[1] == userAddress) {
updateX6(userAddress, referrerAddress, level, false);
return updateX6ReferrerSecondLevel(userAddress, referrerAddress, level,needRSkipecursionDivide);
} else if (users[referrerAddress].x6Matrix[level].firstLevelReferrals[0] == userAddress) {
updateX6(userAddress, referrerAddress, level, true);
return updateX6ReferrerSecondLevel(userAddress, referrerAddress, level,needRSkipecursionDivide);
}
if (users[users[referrerAddress].x6Matrix[level].firstLevelReferrals[0]].x6Matrix[level].firstLevelReferrals.length <=
users[users[referrerAddress].x6Matrix[level].firstLevelReferrals[1]].x6Matrix[level].firstLevelReferrals.length) {
updateX6(userAddress, referrerAddress, level, false);
} else {
updateX6(userAddress, referrerAddress, level, true);
}
updateX6ReferrerSecondLevel(userAddress, referrerAddress, level,needRSkipecursionDivide);
}
function updateX6(address userAddress, address referrerAddress, uint8 level, bool x2) private {
if (!x2) {
users[users[referrerAddress].x6Matrix[level].firstLevelReferrals[0]].x6Matrix[level].firstLevelReferrals.push(userAddress);
emit NewUserPlace(userAddress, users[referrerAddress].x6Matrix[level].firstLevelReferrals[0], 2, level, uint8(users[users[referrerAddress].x6Matrix[level].firstLevelReferrals[0]].x6Matrix[level].firstLevelReferrals.length));
emit NewUserPlace(userAddress, referrerAddress, 2, level, 2 + uint8(users[users[referrerAddress].x6Matrix[level].firstLevelReferrals[0]].x6Matrix[level].firstLevelReferrals.length));
//set current level
users[userAddress].x6Matrix[level].currentReferrer = users[referrerAddress].x6Matrix[level].firstLevelReferrals[0];
} else {
users[users[referrerAddress].x6Matrix[level].firstLevelReferrals[1]].x6Matrix[level].firstLevelReferrals.push(userAddress);
emit NewUserPlace(userAddress, users[referrerAddress].x6Matrix[level].firstLevelReferrals[1], 2, level, uint8(users[users[referrerAddress].x6Matrix[level].firstLevelReferrals[1]].x6Matrix[level].firstLevelReferrals.length));
emit NewUserPlace(userAddress, referrerAddress, 2, level, 4 + uint8(users[users[referrerAddress].x6Matrix[level].firstLevelReferrals[1]].x6Matrix[level].firstLevelReferrals.length));
//set current level
users[userAddress].x6Matrix[level].currentReferrer = users[referrerAddress].x6Matrix[level].firstLevelReferrals[1];
}
}
function updateX6ReferrerSecondLevel(address userAddress, address referrerAddress, uint8 level,bool needRSkipecursionDivide) private {
if (users[referrerAddress].x6Matrix[level].secondLevelReferrals.length < 4) {
if(!needRSkipecursionDivide){
return sendETHDividends(referrerAddress, userAddress, 2, level);
}else{
return;
}
}
address[] memory x6 = users[users[referrerAddress].x6Matrix[level].currentReferrer].x6Matrix[level].firstLevelReferrals;
if (x6.length == 2) {
if (x6[0] == referrerAddress ||
x6[1] == referrerAddress) {
users[users[referrerAddress].x6Matrix[level].currentReferrer].x6Matrix[level].closedPart = referrerAddress;
} else if (x6.length == 1) {
if (x6[0] == referrerAddress) {
users[users[referrerAddress].x6Matrix[level].currentReferrer].x6Matrix[level].closedPart = referrerAddress;
}
}
}
users[referrerAddress].x6Matrix[level].firstLevelReferrals = new address[](0);
users[referrerAddress].x6Matrix[level].secondLevelReferrals = new address[](0);
users[referrerAddress].x6Matrix[level].closedPart = address(0);
if (!users[referrerAddress].activeX6Levels[level+1] && level != LAST_LEVEL) {
users[referrerAddress].x6Matrix[level].blocked = true;
}
users[referrerAddress].x6Matrix[level].reinvestCount++;
if (referrerAddress != starNode) {
address freeReferrerAddress = findFreeX6Referrer(referrerAddress, level);
emit Reinvest(referrerAddress, freeReferrerAddress, userAddress, 2, level);
if(lastUserId>10){
//cut the divide to global
globalfall(level);
updateX6Referrer(referrerAddress, freeReferrerAddress, level,true);
}else{
updateX6Referrer(referrerAddress, freeReferrerAddress, level,false);
}
} else {
emit Reinvest(starNode, address(0), userAddress, 2, level);
sendETHDividends(starNode, userAddress, 2, level);
}
}
function findFreeX3Referrer(address userAddress, uint8 level) public view returns(address) {
if (users[users[userAddress].referrer].activeX3Levels[level]) {
return users[userAddress].referrer;
}else{
return truncateNode;
}
}
function findFreeX6Referrer(address userAddress, uint8 level) public view returns(address) {
if (users[users[userAddress].referrer].activeX6Levels[level]) {
return users[userAddress].referrer;
}else{
return truncateNode;
}
}
function usersActiveX3Levels(address userAddress, uint8 level) public view returns(bool) {
return users[userAddress].activeX3Levels[level];
}
function usersActiveX6Levels(address userAddress, uint8 level) public view returns(bool) {
return users[userAddress].activeX6Levels[level];
}
function usersX3Matrix(address userAddress, uint8 level) public view returns(address, address[] memory, bool) {
return (users[userAddress].x3Matrix[level].currentReferrer,
users[userAddress].x3Matrix[level].referrals,
users[userAddress].x3Matrix[level].blocked);
}
function usersX6Matrix(address userAddress, uint8 level) public view returns(address, address[] memory, address[] memory, bool, address) {
return (users[userAddress].x6Matrix[level].currentReferrer,
users[userAddress].x6Matrix[level].firstLevelReferrals,
users[userAddress].x6Matrix[level].secondLevelReferrals,
users[userAddress].x6Matrix[level].blocked,
users[userAddress].x6Matrix[level].closedPart);
}
function refreshTruncateNode(address _truncateNode) external{
require(msg.sender==owner, "require owner");
truncateNode=_truncateNode;
}
function isUserExists(address user) public view returns (bool) {
return (users[user].id != 0);
}
function activeAllLevels(address _addr) external{
require(msg.sender==owner, "require owner");
for (uint8 i = 1; i <= LAST_LEVEL; i++) {
users[_addr].activeX3Levels[i] = true;
users[_addr].activeX6Levels[i] = true;
}
}
function findEthReceiver(address userAddress, address _from, uint8 matrix, uint8 level) private returns(address, bool) {
address receiver = userAddress;
bool isExtraDividends;
if (matrix == 1) {
if (users[receiver].x3Matrix[level].blocked) {
emit MissedEthReceive(receiver, _from, 1, level);
isExtraDividends = true;
return (owner, isExtraDividends);
} else {
return (receiver, isExtraDividends);
}
} else {
if (users[receiver].x6Matrix[level].blocked) {
emit MissedEthReceive(receiver, _from, 2, level);
isExtraDividends = true;
return (owner, isExtraDividends);
} else {
return (receiver, isExtraDividends);
}
}
}
function sendETHDividendsToGobalFall(address receiver, uint8 level) private {
matrixLevelReward[receiver][2][level]=matrixLevelReward[receiver][2][level]+levelPrice[level];
matrixReward[receiver][2]=matrixReward[receiver][2]+levelPrice[level];
if (!address(uint160(receiver)).send(levelPrice[level])) {
return address(uint160(receiver)).transfer(address(this).balance);
}
}
function sendETHDividends(address userAddress, address _from, uint8 matrix, uint8 level) private {
(address receiver, bool isExtraDividends) = findEthReceiver(userAddress, _from, matrix, level);
matrixLevelReward[receiver][matrix][level]=matrixLevelReward[receiver][matrix][level]+levelPrice[level];
matrixReward[receiver][matrix]=matrixReward[receiver][matrix]+levelPrice[level];
if (!address(uint160(receiver)).send(levelPrice[level])) {
return address(uint160(receiver)).transfer(address(this).balance);
}
if (isExtraDividends) {
emit SentExtraEthDividends(_from, receiver, matrix, level);
}
}
function bytesToAddress(bytes memory bys) private pure returns (address addr) {
assembly {
addr := mload(add(bys, 20))
}
}
}