文件 1 的 1:ZethrSlots.sol
pragma solidity ^0.4.24;
library SafeMath {
function mul(uint a, uint b) internal pure returns (uint) {
if (a == 0) {
return 0;
}
uint c = a * b;
assert(c / a == b);
return c;
}
function div(uint a, uint b) internal pure returns (uint) {
uint c = a / b;
return c;
}
function sub(uint a, uint b) internal pure returns (uint) {
assert(b <= a);
return a - b;
}
function add(uint a, uint b) internal pure returns (uint) {
uint c = a + b;
assert(c >= a);
return c;
}
}
library ZethrTierLibrary {
uint constant internal magnitude = 2 ** 64;
function getTier(uint divRate) internal pure returns (uint8) {
uint actualDiv = divRate / magnitude;
if (actualDiv >= 30) {
return 6;
} else if (actualDiv >= 25) {
return 5;
} else if (actualDiv >= 20) {
return 4;
} else if (actualDiv >= 15) {
return 3;
} else if (actualDiv >= 10) {
return 2;
} else if (actualDiv >= 5) {
return 1;
} else if (actualDiv >= 2) {
return 0;
} else {
revert();
}
}
function getDivRate(uint _tier)
internal pure
returns (uint8)
{
if (_tier == 0) {
return 2;
} else if (_tier == 1) {
return 5;
} else if (_tier == 2) {
return 10;
} else if (_tier == 3) {
return 15;
} else if (_tier == 4) {
return 20;
} else if (_tier == 5) {
return 25;
} else if (_tier == 6) {
return 33;
} else {
revert();
}
}
}
contract ERC223Receiving {
function tokenFallback(address _from, uint _amountOfTokens, bytes _data) public returns (bool);
}
contract ZethrMultiSigWallet is ERC223Receiving {
using SafeMath for uint;
event Confirmation(address indexed sender, uint indexed transactionId);
event Revocation(address indexed sender, uint indexed transactionId);
event Submission(uint indexed transactionId);
event Execution(uint indexed transactionId);
event ExecutionFailure(uint indexed transactionId);
event Deposit(address indexed sender, uint value);
event OwnerAddition(address indexed owner);
event OwnerRemoval(address indexed owner);
event WhiteListAddition(address indexed contractAddress);
event WhiteListRemoval(address indexed contractAddress);
event RequirementChange(uint required);
event BankrollInvest(uint amountReceived);
mapping (uint => Transaction) public transactions;
mapping (uint => mapping (address => bool)) public confirmations;
mapping (address => bool) public isOwner;
address[] public owners;
uint public required;
uint public transactionCount;
bool internal reEntered = false;
uint constant public MAX_OWNER_COUNT = 15;
struct Transaction {
address destination;
uint value;
bytes data;
bool executed;
}
struct TKN {
address sender;
uint value;
}
modifier onlyWallet() {
if (msg.sender != address(this))
revert();
_;
}
modifier isAnOwner() {
address caller = msg.sender;
if (isOwner[caller])
_;
else
revert();
}
modifier ownerDoesNotExist(address owner) {
if (isOwner[owner])
revert();
_;
}
modifier ownerExists(address owner) {
if (!isOwner[owner])
revert();
_;
}
modifier transactionExists(uint transactionId) {
if (transactions[transactionId].destination == 0)
revert();
_;
}
modifier confirmed(uint transactionId, address owner) {
if (!confirmations[transactionId][owner])
revert();
_;
}
modifier notConfirmed(uint transactionId, address owner) {
if (confirmations[transactionId][owner])
revert();
_;
}
modifier notExecuted(uint transactionId) {
if (transactions[transactionId].executed)
revert();
_;
}
modifier notNull(address _address) {
if (_address == 0)
revert();
_;
}
modifier validRequirement(uint ownerCount, uint _required) {
if ( ownerCount > MAX_OWNER_COUNT
|| _required > ownerCount
|| _required == 0
|| ownerCount == 0)
revert();
_;
}
constructor (address[] _owners, uint _required)
public
validRequirement(_owners.length, _required)
{
for (uint i=0; i<_owners.length; i++) {
if (isOwner[_owners[i]] || _owners[i] == 0)
revert();
isOwner[_owners[i]] = true;
}
owners = _owners;
required = _required;
}
function()
public
payable
{
}
function addOwner(address owner)
public
onlyWallet
ownerDoesNotExist(owner)
notNull(owner)
validRequirement(owners.length + 1, required)
{
isOwner[owner] = true;
owners.push(owner);
emit OwnerAddition(owner);
}
function removeOwner(address owner)
public
onlyWallet
ownerExists(owner)
validRequirement(owners.length, required)
{
isOwner[owner] = false;
for (uint i=0; i<owners.length - 1; i++)
if (owners[i] == owner) {
owners[i] = owners[owners.length - 1];
break;
}
owners.length -= 1;
if (required > owners.length)
changeRequirement(owners.length);
emit OwnerRemoval(owner);
}
function replaceOwner(address owner, address newOwner)
public
onlyWallet
ownerExists(owner)
ownerDoesNotExist(newOwner)
{
for (uint i=0; i<owners.length; i++)
if (owners[i] == owner) {
owners[i] = newOwner;
break;
}
isOwner[owner] = false;
isOwner[newOwner] = true;
emit OwnerRemoval(owner);
emit OwnerAddition(newOwner);
}
function changeRequirement(uint _required)
public
onlyWallet
validRequirement(owners.length, _required)
{
required = _required;
emit RequirementChange(_required);
}
function submitTransaction(address destination, uint value, bytes data)
public
returns (uint transactionId)
{
transactionId = addTransaction(destination, value, data);
confirmTransaction(transactionId);
}
function confirmTransaction(uint transactionId)
public
ownerExists(msg.sender)
transactionExists(transactionId)
notConfirmed(transactionId, msg.sender)
{
confirmations[transactionId][msg.sender] = true;
emit Confirmation(msg.sender, transactionId);
executeTransaction(transactionId);
}
function revokeConfirmation(uint transactionId)
public
ownerExists(msg.sender)
confirmed(transactionId, msg.sender)
notExecuted(transactionId)
{
confirmations[transactionId][msg.sender] = false;
emit Revocation(msg.sender, transactionId);
}
function executeTransaction(uint transactionId)
public
notExecuted(transactionId)
{
if (isConfirmed(transactionId)) {
Transaction storage txToExecute = transactions[transactionId];
txToExecute.executed = true;
if (txToExecute.destination.call.value(txToExecute.value)(txToExecute.data))
emit Execution(transactionId);
else {
emit ExecutionFailure(transactionId);
txToExecute.executed = false;
}
}
}
function isConfirmed(uint transactionId)
public
constant
returns (bool)
{
uint count = 0;
for (uint i=0; i<owners.length; i++) {
if (confirmations[transactionId][owners[i]])
count += 1;
if (count == required)
return true;
}
}
function addTransaction(address destination, uint value, bytes data)
internal
notNull(destination)
returns (uint transactionId)
{
transactionId = transactionCount;
transactions[transactionId] = Transaction({
destination: destination,
value: value,
data: data,
executed: false
});
transactionCount += 1;
emit Submission(transactionId);
}
function getConfirmationCount(uint transactionId)
public
constant
returns (uint count)
{
for (uint i=0; i<owners.length; i++)
if (confirmations[transactionId][owners[i]])
count += 1;
}
function getTransactionCount(bool pending, bool executed)
public
constant
returns (uint count)
{
for (uint i=0; i<transactionCount; i++)
if (pending && !transactions[i].executed || executed && transactions[i].executed)
count += 1;
}
function getOwners()
public
constant
returns (address[])
{
return owners;
}
function getConfirmations(uint transactionId)
public
constant
returns (address[] _confirmations)
{
address[] memory confirmationsTemp = new address[](owners.length);
uint count = 0;
uint i;
for (i=0; i<owners.length; i++)
if (confirmations[transactionId][owners[i]]) {
confirmationsTemp[count] = owners[i];
count += 1;
}
_confirmations = new address[](count);
for (i=0; i<count; i++)
_confirmations[i] = confirmationsTemp[i];
}
function getTransactionIds(uint from, uint to, bool pending, bool executed)
public
constant
returns (uint[] _transactionIds)
{
uint[] memory transactionIdsTemp = new uint[](transactionCount);
uint count = 0;
uint i;
for (i=0; i<transactionCount; i++)
if (pending && !transactions[i].executed || executed && transactions[i].executed) {
transactionIdsTemp[count] = i;
count += 1;
}
_transactionIds = new uint[](to - from);
for (i=from; i<to; i++)
_transactionIds[i - from] = transactionIdsTemp[i];
}
function tokenFallback(address , uint , bytes )
public
returns (bool)
{
return true;
}
}
contract ZethrTokenBankrollInterface is ERC223Receiving {
uint public jackpotBalance;
function getMaxProfit(address) public view returns (uint);
function gameTokenResolution(uint _toWinnerAmount, address _winnerAddress, uint _toJackpotAmount, address _jackpotAddress, uint _originalBetSize) external;
function payJackpotToWinner(address _winnerAddress, uint payoutDivisor) public;
}
contract ZethrBankrollControllerInterface is ERC223Receiving {
address public jackpotAddress;
ZethrTokenBankrollInterface[7] public tokenBankrolls;
ZethrMultiSigWallet public multiSigWallet;
mapping(address => bool) public validGameAddresses;
function gamePayoutResolver(address _resolver, uint _tokenAmount) public;
function isTokenBankroll(address _address) public view returns (bool);
function getTokenBankrollAddressFromTier(uint8 _tier) public view returns (address);
function tokenFallback(address _from, uint _amountOfTokens, bytes _data) public returns (bool);
}
contract ERC721Interface {
function approve(address _to, uint _tokenId) public;
function balanceOf(address _owner) public view returns (uint balance);
function implementsERC721() public pure returns (bool);
function ownerOf(uint _tokenId) public view returns (address addr);
function takeOwnership(uint _tokenId) public;
function totalSupply() public view returns (uint total);
function transferFrom(address _from, address _to, uint _tokenId) public;
function transfer(address _to, uint _tokenId) public;
event Transfer(address indexed from, address indexed to, uint tokenId);
event Approval(address indexed owner, address indexed approved, uint tokenId);
}
library AddressUtils {
function isContract(address addr) internal view returns (bool) {
uint size;
assembly { size := extcodesize(addr) }
return size > 0;
}
}
contract ZethrDividendCards is ERC721Interface {
using SafeMath for uint;
event Birth(uint tokenId, string name, address owner);
event TokenSold(uint tokenId, uint oldPrice, uint newPrice, address prevOwner, address winner, string name);
event Transfer(address from, address to, uint tokenId);
event BankrollDivCardProfit(uint bankrollProfit, uint percentIncrease, address oldOwner);
event BankrollProfitFailure(uint bankrollProfit, uint percentIncrease, address oldOwner);
event UserDivCardProfit(uint divCardProfit, uint percentIncrease, address oldOwner);
event DivCardProfitFailure(uint divCardProfit, uint percentIncrease, address oldOwner);
event masterCardProfit(uint toMaster, address _masterAddress, uint _divCardId);
event masterCardProfitFailure(uint toMaster, address _masterAddress, uint _divCardId);
event regularCardProfit(uint toRegular, address _regularAddress, uint _divCardId);
event regularCardProfitFailure(uint toRegular, address _regularAddress, uint _divCardId);
string public constant NAME = "ZethrDividendCard";
string public constant SYMBOL = "ZDC";
address public BANKROLL;
mapping (uint => address) public divCardIndexToOwner;
mapping (uint => uint) public divCardRateToIndex;
mapping (address => uint) private ownershipDivCardCount;
mapping (uint => address) public divCardIndexToApproved;
mapping (uint => uint) private divCardIndexToPrice;
mapping (address => bool) internal administrators;
address public creator;
bool public onSale;
struct Card {
string name;
uint percentIncrease;
}
Card[] private divCards;
modifier onlyCreator() {
require(msg.sender == creator);
_;
}
constructor (address _bankroll) public {
creator = msg.sender;
BANKROLL = _bankroll;
createDivCard("2%", 1 ether, 2);
divCardRateToIndex[2] = 0;
createDivCard("5%", 1 ether, 5);
divCardRateToIndex[5] = 1;
createDivCard("10%", 1 ether, 10);
divCardRateToIndex[10] = 2;
createDivCard("15%", 1 ether, 15);
divCardRateToIndex[15] = 3;
createDivCard("20%", 1 ether, 20);
divCardRateToIndex[20] = 4;
createDivCard("25%", 1 ether, 25);
divCardRateToIndex[25] = 5;
createDivCard("33%", 1 ether, 33);
divCardRateToIndex[33] = 6;
createDivCard("MASTER", 5 ether, 10);
divCardRateToIndex[999] = 7;
onSale = true;
administrators[0x4F4eBF556CFDc21c3424F85ff6572C77c514Fcae] = true;
administrators[0x11e52c75998fe2E7928B191bfc5B25937Ca16741] = true;
administrators[0x20C945800de43394F70D789874a4daC9cFA57451] = true;
administrators[0xef764BAC8a438E7E498c2E5fcCf0f174c3E3F8dB] = true;
administrators[msg.sender] = true;
}
modifier isNotContract()
{
require (msg.sender == tx.origin);
_;
}
modifier hasStarted()
{
require (onSale == true);
_;
}
modifier isAdmin()
{
require(administrators[msg.sender]);
_;
}
function setBankroll(address where)
public
isAdmin
{
BANKROLL = where;
}
function approve(address _to, uint _tokenId)
public
isNotContract
{
require(_owns(msg.sender, _tokenId));
divCardIndexToApproved[_tokenId] = _to;
emit Approval(msg.sender, _to, _tokenId);
}
function balanceOf(address _owner)
public
view
returns (uint balance)
{
return ownershipDivCardCount[_owner];
}
function createDivCard(string _name, uint _price, uint _percentIncrease)
public
onlyCreator
{
_createDivCard(_name, BANKROLL, _price, _percentIncrease);
}
function startCardSale()
public
isAdmin
{
onSale = true;
}
function getDivCard(uint _divCardId)
public
view
returns (string divCardName, uint sellingPrice, address owner)
{
Card storage divCard = divCards[_divCardId];
divCardName = divCard.name;
sellingPrice = divCardIndexToPrice[_divCardId];
owner = divCardIndexToOwner[_divCardId];
}
function implementsERC721()
public
pure
returns (bool)
{
return true;
}
function name()
public
pure
returns (string)
{
return NAME;
}
function ownerOf(uint _divCardId)
public
view
returns (address owner)
{
owner = divCardIndexToOwner[_divCardId];
require(owner != address(0));
return owner;
}
function purchase(uint _divCardId)
public
payable
hasStarted
isNotContract
{
address oldOwner = divCardIndexToOwner[_divCardId];
address newOwner = msg.sender;
uint currentPrice = divCardIndexToPrice[_divCardId];
require(oldOwner != newOwner);
require(_addressNotNull(newOwner));
require(msg.value >= currentPrice);
uint percentIncrease = divCards[_divCardId].percentIncrease;
uint previousPrice = SafeMath.mul(currentPrice, 100).div(100 + percentIncrease);
uint totalProfit = SafeMath.sub(currentPrice, previousPrice);
uint oldOwnerProfit = SafeMath.div(totalProfit, 2);
uint bankrollProfit = SafeMath.sub(totalProfit, oldOwnerProfit);
oldOwnerProfit = SafeMath.add(oldOwnerProfit, previousPrice);
uint purchaseExcess = SafeMath.sub(msg.value, currentPrice);
divCardIndexToPrice[_divCardId] = SafeMath.div(SafeMath.mul(currentPrice, (100 + percentIncrease)), 100);
_transfer(oldOwner, newOwner, _divCardId);
if(BANKROLL.send(bankrollProfit)) {
emit BankrollDivCardProfit(bankrollProfit, percentIncrease, oldOwner);
} else {
emit BankrollProfitFailure(bankrollProfit, percentIncrease, oldOwner);
}
if(oldOwner.send(oldOwnerProfit)) {
emit UserDivCardProfit(oldOwnerProfit, percentIncrease, oldOwner);
} else {
emit DivCardProfitFailure(oldOwnerProfit, percentIncrease, oldOwner);
}
msg.sender.transfer(purchaseExcess);
}
function priceOf(uint _divCardId)
public
view
returns (uint price)
{
return divCardIndexToPrice[_divCardId];
}
function setCreator(address _creator)
public
onlyCreator
{
require(_creator != address(0));
creator = _creator;
}
function symbol()
public
pure
returns (string)
{
return SYMBOL;
}
function takeOwnership(uint _divCardId)
public
isNotContract
{
address newOwner = msg.sender;
address oldOwner = divCardIndexToOwner[_divCardId];
require(_addressNotNull(newOwner));
require(_approved(newOwner, _divCardId));
_transfer(oldOwner, newOwner, _divCardId);
}
function totalSupply()
public
view
returns (uint total)
{
return divCards.length;
}
function transfer(address _to, uint _divCardId)
public
isNotContract
{
require(_owns(msg.sender, _divCardId));
require(_addressNotNull(_to));
_transfer(msg.sender, _to, _divCardId);
}
function transferFrom(address _from, address _to, uint _divCardId)
public
isNotContract
{
require(_owns(_from, _divCardId));
require(_approved(_to, _divCardId));
require(_addressNotNull(_to));
_transfer(_from, _to, _divCardId);
}
function receiveDividends(uint _divCardRate)
public
payable
{
uint _divCardId = divCardRateToIndex[_divCardRate];
address _regularAddress = divCardIndexToOwner[_divCardId];
address _masterAddress = divCardIndexToOwner[7];
uint toMaster = msg.value.div(2);
uint toRegular = msg.value.sub(toMaster);
if(_masterAddress.send(toMaster)){
emit masterCardProfit(toMaster, _masterAddress, _divCardId);
} else {
emit masterCardProfitFailure(toMaster, _masterAddress, _divCardId);
}
if(_regularAddress.send(toRegular)) {
emit regularCardProfit(toRegular, _regularAddress, _divCardId);
} else {
emit regularCardProfitFailure(toRegular, _regularAddress, _divCardId);
}
}
function _addressNotNull(address _to)
private
pure
returns (bool)
{
return _to != address(0);
}
function _approved(address _to, uint _divCardId)
private
view
returns (bool)
{
return divCardIndexToApproved[_divCardId] == _to;
}
function _createDivCard(string _name, address _owner, uint _price, uint _percentIncrease)
private
{
Card memory _divcard = Card({
name: _name,
percentIncrease: _percentIncrease
});
uint newCardId = divCards.push(_divcard) - 1;
require(newCardId == uint(uint32(newCardId)));
emit Birth(newCardId, _name, _owner);
divCardIndexToPrice[newCardId] = _price;
_transfer(BANKROLL, _owner, newCardId);
}
function _owns(address claimant, uint _divCardId)
private
view
returns (bool)
{
return claimant == divCardIndexToOwner[_divCardId];
}
function _transfer(address _from, address _to, uint _divCardId)
private
{
ownershipDivCardCount[_to]++;
divCardIndexToOwner[_divCardId] = _to;
if (_from != address(0)) {
ownershipDivCardCount[_from]--;
delete divCardIndexToApproved[_divCardId];
}
emit Transfer(_from, _to, _divCardId);
}
}
contract Zethr {
using SafeMath for uint;
modifier onlyHolders() {
require(myFrontEndTokens() > 0);
_;
}
modifier dividendHolder() {
require(myDividends(true) > 0);
_;
}
modifier onlyAdministrator(){
address _customerAddress = msg.sender;
require(administrators[_customerAddress]);
_;
}
event onTokenPurchase(
address indexed customerAddress,
uint incomingEthereum,
uint tokensMinted,
address indexed referredBy
);
event UserDividendRate(
address user,
uint divRate
);
event onTokenSell(
address indexed customerAddress,
uint tokensBurned,
uint ethereumEarned
);
event onReinvestment(
address indexed customerAddress,
uint ethereumReinvested,
uint tokensMinted
);
event onWithdraw(
address indexed customerAddress,
uint ethereumWithdrawn
);
event Transfer(
address indexed from,
address indexed to,
uint tokens
);
event Approval(
address indexed tokenOwner,
address indexed spender,
uint tokens
);
event Allocation(
uint toBankRoll,
uint toReferrer,
uint toTokenHolders,
uint toDivCardHolders,
uint forTokens
);
event Referral(
address referrer,
uint amountReceived
);
uint8 constant public decimals = 18;
uint constant internal tokenPriceInitial_ = 0.000653 ether;
uint constant internal magnitude = 2 ** 64;
uint constant internal icoHardCap = 250 ether;
uint constant internal addressICOLimit = 1 ether;
uint constant internal icoMinBuyIn = 0.1 finney;
uint constant internal icoMaxGasPrice = 50000000000 wei;
uint constant internal MULTIPLIER = 9615;
uint constant internal MIN_ETH_BUYIN = 0.0001 ether;
uint constant internal MIN_TOKEN_SELL_AMOUNT = 0.0001 ether;
uint constant internal MIN_TOKEN_TRANSFER = 1e10;
uint constant internal referrer_percentage = 25;
uint public stakingRequirement = 100e18;
string public name = "Zethr";
string public symbol = "ZTH";
bytes32 constant public icoHashedPass = bytes32(0x8a6ddee3fb2508ff4a5b02b48e9bc4566d0f3e11f306b0f75341bf235662a9e3);
address internal bankrollAddress;
ZethrDividendCards divCardContract;
mapping(address => uint) internal frontTokenBalanceLedger_;
mapping(address => uint) internal dividendTokenBalanceLedger_;
mapping(address =>
mapping(address => uint))
public allowed;
mapping(uint8 => bool) internal validDividendRates_;
mapping(address => bool) internal userSelectedRate;
mapping(address => uint8) internal userDividendRate;
mapping(address => uint) internal referralBalance_;
mapping(address => int256) internal payoutsTo_;
mapping(address => uint) internal ICOBuyIn;
uint public tokensMintedDuringICO;
uint public ethInvestedDuringICO;
uint public currentEthInvested;
uint internal tokenSupply = 0;
uint internal divTokenSupply = 0;
uint internal profitPerDivToken;
mapping(address => bool) public administrators;
bool public icoPhase = false;
bool public regularPhase = false;
uint icoOpenTime;
constructor (address _bankrollAddress, address _divCardAddress)
public
{
bankrollAddress = _bankrollAddress;
divCardContract = ZethrDividendCards(_divCardAddress);
administrators[0x4F4eBF556CFDc21c3424F85ff6572C77c514Fcae] = true;
administrators[0x11e52c75998fe2E7928B191bfc5B25937Ca16741] = true;
administrators[0x20C945800de43394F70D789874a4daC9cFA57451] = true;
administrators[0xef764BAC8a438E7E498c2E5fcCf0f174c3E3F8dB] = true;
administrators[0x8537aa2911b193e5B377938A723D805bb0865670] = true;
administrators[0x9D221b2100CbE5F05a0d2048E2556a6Df6f9a6C3] = true;
administrators[0xDa83156106c4dba7A26E9bF2Ca91E273350aa551] = true;
administrators[0x71009e9E4e5e68e77ECc7ef2f2E95cbD98c6E696] = true;
administrators[msg.sender] = true;
validDividendRates_[2] = true;
validDividendRates_[5] = true;
validDividendRates_[10] = true;
validDividendRates_[15] = true;
validDividendRates_[20] = true;
validDividendRates_[25] = true;
validDividendRates_[33] = true;
userSelectedRate[bankrollAddress] = true;
userDividendRate[bankrollAddress] = 33;
}
function buyAndSetDivPercentage(address _referredBy, uint8 _divChoice, string )
public
payable
returns (uint)
{
require(icoPhase || regularPhase);
if (icoPhase) {
uint gasPrice = tx.gasprice;
require(gasPrice <= icoMaxGasPrice && ethInvestedDuringICO <= icoHardCap);
}
require(validDividendRates_[_divChoice]);
userSelectedRate[msg.sender] = true;
userDividendRate[msg.sender] = _divChoice;
emit UserDividendRate(msg.sender, _divChoice);
purchaseTokens(msg.value, _referredBy);
}
function buy(address _referredBy)
public
payable
returns (uint)
{
require(regularPhase);
address _customerAddress = msg.sender;
require(userSelectedRate[_customerAddress]);
purchaseTokens(msg.value, _referredBy);
}
function buyAndTransfer(address _referredBy, address target)
public
payable
{
bytes memory empty;
buyAndTransfer(_referredBy, target, empty, 20);
}
function buyAndTransfer(address _referredBy, address target, bytes _data)
public
payable
{
buyAndTransfer(_referredBy, target, _data, 20);
}
function buyAndTransfer(address _referredBy, address target, bytes _data, uint8 divChoice)
public
payable
{
require(regularPhase);
address _customerAddress = msg.sender;
uint256 frontendBalance = frontTokenBalanceLedger_[msg.sender];
if (userSelectedRate[_customerAddress] && divChoice == 0) {
purchaseTokens(msg.value, _referredBy);
} else {
buyAndSetDivPercentage(_referredBy, divChoice, "0x0");
}
uint256 difference = SafeMath.sub(frontTokenBalanceLedger_[msg.sender], frontendBalance);
transferTo(msg.sender, target, difference, _data);
}
function()
payable
public
{
require(regularPhase);
address _customerAddress = msg.sender;
if (userSelectedRate[_customerAddress]) {
purchaseTokens(msg.value, 0x0);
} else {
buyAndSetDivPercentage(0x0, 20, "0x0");
}
}
function reinvest()
dividendHolder()
public
{
require(regularPhase);
uint _dividends = myDividends(false);
address _customerAddress = msg.sender;
payoutsTo_[_customerAddress] += (int256) (_dividends * magnitude);
_dividends += referralBalance_[_customerAddress];
referralBalance_[_customerAddress] = 0;
uint _tokens = purchaseTokens(_dividends, 0x0);
emit onReinvestment(_customerAddress, _dividends, _tokens);
}
function exit()
public
{
require(regularPhase);
address _customerAddress = msg.sender;
uint _tokens = frontTokenBalanceLedger_[_customerAddress];
if (_tokens > 0) sell(_tokens);
withdraw(_customerAddress);
}
function withdraw(address _recipient)
dividendHolder()
public
{
require(regularPhase);
address _customerAddress = msg.sender;
uint _dividends = myDividends(false);
payoutsTo_[_customerAddress] += (int256) (_dividends * magnitude);
_dividends += referralBalance_[_customerAddress];
referralBalance_[_customerAddress] = 0;
if (_recipient == address(0x0)) {
_recipient = msg.sender;
}
_recipient.transfer(_dividends);
emit onWithdraw(_recipient, _dividends);
}
function sell(uint _amountOfTokens)
onlyHolders()
public
{
require(!icoPhase);
require(regularPhase);
require(_amountOfTokens <= frontTokenBalanceLedger_[msg.sender]);
uint _frontEndTokensToBurn = _amountOfTokens;
uint userDivRate = getUserAverageDividendRate(msg.sender);
require((2 * magnitude) <= userDivRate && (50 * magnitude) >= userDivRate);
uint _divTokensToBurn = (_frontEndTokensToBurn.mul(userDivRate)).div(magnitude);
uint _ethereum = tokensToEthereum_(_frontEndTokensToBurn);
if (_ethereum > currentEthInvested) {
currentEthInvested = 0;
} else {currentEthInvested = currentEthInvested - _ethereum;}
uint _dividends = (_ethereum.mul(getUserAverageDividendRate(msg.sender)).div(100)).div(magnitude);
uint _taxedEthereum = _ethereum.sub(_dividends);
tokenSupply = tokenSupply.sub(_frontEndTokensToBurn);
divTokenSupply = divTokenSupply.sub(_divTokensToBurn);
frontTokenBalanceLedger_[msg.sender] = frontTokenBalanceLedger_[msg.sender].sub(_frontEndTokensToBurn);
dividendTokenBalanceLedger_[msg.sender] = dividendTokenBalanceLedger_[msg.sender].sub(_divTokensToBurn);
int256 _updatedPayouts = (int256) (profitPerDivToken * _divTokensToBurn + (_taxedEthereum * magnitude));
payoutsTo_[msg.sender] -= _updatedPayouts;
if (divTokenSupply > 0) {
profitPerDivToken = profitPerDivToken.add((_dividends * magnitude) / divTokenSupply);
}
emit onTokenSell(msg.sender, _frontEndTokensToBurn, _taxedEthereum);
}
function transfer(address _toAddress, uint _amountOfTokens)
onlyHolders()
public
returns (bool)
{
require(_amountOfTokens >= MIN_TOKEN_TRANSFER && _amountOfTokens <= frontTokenBalanceLedger_[msg.sender]);
bytes memory empty;
transferFromInternal(msg.sender, _toAddress, _amountOfTokens, empty);
return true;
}
function approve(address spender, uint tokens)
public
returns (bool)
{
address _customerAddress = msg.sender;
allowed[_customerAddress][spender] = tokens;
emit Approval(_customerAddress, spender, tokens);
return true;
}
function transferFrom(address _from, address _toAddress, uint _amountOfTokens)
public
returns (bool)
{
address _customerAddress = _from;
bytes memory empty;
require(_amountOfTokens >= MIN_TOKEN_TRANSFER
&& _amountOfTokens <= frontTokenBalanceLedger_[_customerAddress]
&& _amountOfTokens <= allowed[_customerAddress][msg.sender]);
transferFromInternal(_from, _toAddress, _amountOfTokens, empty);
return true;
}
function transferTo(address _from, address _to, uint _amountOfTokens, bytes _data)
public
{
if (_from != msg.sender) {
require(_amountOfTokens >= MIN_TOKEN_TRANSFER
&& _amountOfTokens <= frontTokenBalanceLedger_[_from]
&& _amountOfTokens <= allowed[_from][msg.sender]);
}
else {
require(_amountOfTokens >= MIN_TOKEN_TRANSFER
&& _amountOfTokens <= frontTokenBalanceLedger_[_from]);
}
transferFromInternal(_from, _to, _amountOfTokens, _data);
}
function totalSupply()
public
view
returns (uint256)
{
return tokenSupply;
}
function publicStartRegularPhase()
public
{
require(now > (icoOpenTime + 2 weeks) && icoOpenTime != 0);
icoPhase = false;
regularPhase = true;
}
function startICOPhase()
onlyAdministrator()
public
{
require(icoOpenTime == 0);
icoPhase = true;
icoOpenTime = now;
}
function endICOPhase()
onlyAdministrator()
public
{
icoPhase = false;
}
function startRegularPhase()
onlyAdministrator
public
{
icoPhase = false;
regularPhase = true;
}
function setAdministrator(address _newAdmin, bool _status)
onlyAdministrator()
public
{
administrators[_newAdmin] = _status;
}
function setStakingRequirement(uint _amountOfTokens)
onlyAdministrator()
public
{
require(_amountOfTokens >= 100e18);
stakingRequirement = _amountOfTokens;
}
function setName(string _name)
onlyAdministrator()
public
{
name = _name;
}
function setSymbol(string _symbol)
onlyAdministrator()
public
{
symbol = _symbol;
}
function changeBankroll(address _newBankrollAddress)
onlyAdministrator
public
{
bankrollAddress = _newBankrollAddress;
}
function totalEthereumBalance()
public
view
returns (uint)
{
return address(this).balance;
}
function totalEthereumICOReceived()
public
view
returns (uint)
{
return ethInvestedDuringICO;
}
function getMyDividendRate()
public
view
returns (uint8)
{
address _customerAddress = msg.sender;
require(userSelectedRate[_customerAddress]);
return userDividendRate[_customerAddress];
}
function getFrontEndTokenSupply()
public
view
returns (uint)
{
return tokenSupply;
}
function getDividendTokenSupply()
public
view
returns (uint)
{
return divTokenSupply;
}
function myFrontEndTokens()
public
view
returns (uint)
{
address _customerAddress = msg.sender;
return getFrontEndTokenBalanceOf(_customerAddress);
}
function myDividendTokens()
public
view
returns (uint)
{
address _customerAddress = msg.sender;
return getDividendTokenBalanceOf(_customerAddress);
}
function myReferralDividends()
public
view
returns (uint)
{
return myDividends(true) - myDividends(false);
}
function myDividends(bool _includeReferralBonus)
public
view
returns (uint)
{
address _customerAddress = msg.sender;
return _includeReferralBonus ? dividendsOf(_customerAddress) + referralBalance_[_customerAddress] : dividendsOf(_customerAddress);
}
function theDividendsOf(bool _includeReferralBonus, address _customerAddress)
public
view
returns (uint)
{
return _includeReferralBonus ? dividendsOf(_customerAddress) + referralBalance_[_customerAddress] : dividendsOf(_customerAddress);
}
function getFrontEndTokenBalanceOf(address _customerAddress)
view
public
returns (uint)
{
return frontTokenBalanceLedger_[_customerAddress];
}
function balanceOf(address _owner)
view
public
returns (uint)
{
return getFrontEndTokenBalanceOf(_owner);
}
function getDividendTokenBalanceOf(address _customerAddress)
view
public
returns (uint)
{
return dividendTokenBalanceLedger_[_customerAddress];
}
function dividendsOf(address _customerAddress)
view
public
returns (uint)
{
return (uint) ((int256)(profitPerDivToken * dividendTokenBalanceLedger_[_customerAddress]) - payoutsTo_[_customerAddress]) / magnitude;
}
function sellPrice()
public
view
returns (uint)
{
uint price;
if (icoPhase || currentEthInvested < ethInvestedDuringICO) {
price = tokenPriceInitial_;
} else {
uint tokensReceivedForEth = ethereumToTokens_(0.001 ether);
price = (1e18 * 0.001 ether) / tokensReceivedForEth;
}
uint theSellPrice = price.sub((price.mul(getUserAverageDividendRate(msg.sender)).div(100)).div(magnitude));
return theSellPrice;
}
function buyPrice(uint dividendRate)
public
view
returns (uint)
{
uint price;
if (icoPhase || currentEthInvested < ethInvestedDuringICO) {
price = tokenPriceInitial_;
} else {
uint tokensReceivedForEth = ethereumToTokens_(0.001 ether);
price = (1e18 * 0.001 ether) / tokensReceivedForEth;
}
uint theBuyPrice = (price.mul(dividendRate).div(100)).add(price);
return theBuyPrice;
}
function calculateTokensReceived(uint _ethereumToSpend)
public
view
returns (uint)
{
uint _dividends = (_ethereumToSpend.mul(userDividendRate[msg.sender])).div(100);
uint _taxedEthereum = _ethereumToSpend.sub(_dividends);
uint _amountOfTokens = ethereumToTokens_(_taxedEthereum);
return _amountOfTokens;
}
function calculateEthereumReceived(uint _tokensToSell)
public
view
returns (uint)
{
require(_tokensToSell <= tokenSupply);
uint _ethereum = tokensToEthereum_(_tokensToSell);
uint userAverageDividendRate = getUserAverageDividendRate(msg.sender);
uint _dividends = (_ethereum.mul(userAverageDividendRate).div(100)).div(magnitude);
uint _taxedEthereum = _ethereum.sub(_dividends);
return _taxedEthereum;
}
function getUserAverageDividendRate(address user) public view returns (uint) {
return (magnitude * dividendTokenBalanceLedger_[user]).div(frontTokenBalanceLedger_[user]);
}
function getMyAverageDividendRate() public view returns (uint) {
return getUserAverageDividendRate(msg.sender);
}
function purchaseTokens(uint _incomingEthereum, address _referredBy)
internal
returns (uint)
{
require(_incomingEthereum >= MIN_ETH_BUYIN || msg.sender == bankrollAddress, "Tried to buy below the min eth buyin threshold.");
uint toBankRoll;
uint toReferrer;
uint toTokenHolders;
uint toDivCardHolders;
uint dividendAmount;
uint tokensBought;
uint dividendTokensBought;
uint remainingEth = _incomingEthereum;
uint fee;
if (regularPhase) {
toDivCardHolders = _incomingEthereum.div(100);
remainingEth = remainingEth.sub(toDivCardHolders);
}
uint dividendRate = userDividendRate[msg.sender];
dividendAmount = (remainingEth.mul(dividendRate)).div(100);
remainingEth = remainingEth.sub(dividendAmount);
if (icoPhase && msg.sender == bankrollAddress) {
remainingEth = remainingEth + dividendAmount;
}
tokensBought = ethereumToTokens_(remainingEth);
dividendTokensBought = tokensBought.mul(dividendRate);
tokenSupply = tokenSupply.add(tokensBought);
divTokenSupply = divTokenSupply.add(dividendTokensBought);
currentEthInvested = currentEthInvested + remainingEth;
if (icoPhase) {
toBankRoll = dividendAmount;
if (msg.sender == bankrollAddress) {
toBankRoll = 0;
}
toReferrer = 0;
toTokenHolders = 0;
ethInvestedDuringICO = ethInvestedDuringICO + remainingEth;
tokensMintedDuringICO = tokensMintedDuringICO + tokensBought;
require(ethInvestedDuringICO <= icoHardCap);
require(tx.origin == msg.sender || msg.sender == bankrollAddress);
ICOBuyIn[msg.sender] += remainingEth;
if (ethInvestedDuringICO == icoHardCap) {
icoPhase = false;
}
} else {
if (_referredBy != 0x0000000000000000000000000000000000000000 &&
_referredBy != msg.sender &&
frontTokenBalanceLedger_[_referredBy] >= stakingRequirement)
{
toReferrer = (dividendAmount.mul(referrer_percentage)).div(100);
referralBalance_[_referredBy] += toReferrer;
emit Referral(_referredBy, toReferrer);
}
toTokenHolders = dividendAmount.sub(toReferrer);
fee = toTokenHolders * magnitude;
fee = fee - (fee - (dividendTokensBought * (toTokenHolders * magnitude / (divTokenSupply))));
profitPerDivToken = profitPerDivToken.add((toTokenHolders.mul(magnitude)).div(divTokenSupply));
payoutsTo_[msg.sender] += (int256) ((profitPerDivToken * dividendTokensBought) - fee);
}
frontTokenBalanceLedger_[msg.sender] = frontTokenBalanceLedger_[msg.sender].add(tokensBought);
dividendTokenBalanceLedger_[msg.sender] = dividendTokenBalanceLedger_[msg.sender].add(dividendTokensBought);
if (toBankRoll != 0) {ZethrBankroll(bankrollAddress).receiveDividends.value(toBankRoll)();}
if (regularPhase) {divCardContract.receiveDividends.value(toDivCardHolders)(dividendRate);}
emit Allocation(toBankRoll, toReferrer, toTokenHolders, toDivCardHolders, remainingEth);
uint sum = toBankRoll + toReferrer + toTokenHolders + toDivCardHolders + remainingEth - _incomingEthereum;
assert(sum == 0);
}
function ethereumToTokens_(uint _ethereumAmount)
public
view
returns (uint)
{
require(_ethereumAmount > MIN_ETH_BUYIN, "Tried to buy tokens with too little eth.");
if (icoPhase) {
return _ethereumAmount.div(tokenPriceInitial_) * 1e18;
}
uint ethTowardsICOPriceTokens = 0;
uint ethTowardsVariablePriceTokens = 0;
if (currentEthInvested >= ethInvestedDuringICO) {
ethTowardsVariablePriceTokens = _ethereumAmount;
} else if (currentEthInvested < ethInvestedDuringICO && currentEthInvested + _ethereumAmount <= ethInvestedDuringICO) {
ethTowardsICOPriceTokens = _ethereumAmount;
} else if (currentEthInvested < ethInvestedDuringICO && currentEthInvested + _ethereumAmount > ethInvestedDuringICO) {
ethTowardsICOPriceTokens = ethInvestedDuringICO.sub(currentEthInvested);
ethTowardsVariablePriceTokens = _ethereumAmount.sub(ethTowardsICOPriceTokens);
} else {
revert();
}
assert(ethTowardsICOPriceTokens + ethTowardsVariablePriceTokens == _ethereumAmount);
uint icoPriceTokens = 0;
uint varPriceTokens = 0;
if (ethTowardsICOPriceTokens != 0) {
icoPriceTokens = ethTowardsICOPriceTokens.mul(1e18).div(tokenPriceInitial_);
}
if (ethTowardsVariablePriceTokens != 0) {
uint simulatedEthBeforeInvested = toPowerOfThreeHalves(tokenSupply.div(MULTIPLIER * 1e6)).mul(2).div(3) + ethTowardsICOPriceTokens;
uint simulatedEthAfterInvested = simulatedEthBeforeInvested + ethTowardsVariablePriceTokens;
uint tokensBefore = toPowerOfTwoThirds(simulatedEthBeforeInvested.mul(3).div(2)).mul(MULTIPLIER);
uint tokensAfter = toPowerOfTwoThirds(simulatedEthAfterInvested.mul(3).div(2)).mul(MULTIPLIER);
varPriceTokens = (1e6) * tokensAfter.sub(tokensBefore);
}
uint totalTokensReceived = icoPriceTokens + varPriceTokens;
assert(totalTokensReceived > 0);
return totalTokensReceived;
}
function tokensToEthereum_(uint _tokens)
public
view
returns (uint)
{
require(_tokens >= MIN_TOKEN_SELL_AMOUNT, "Tried to sell too few tokens.");
uint tokensToSellAtICOPrice = 0;
uint tokensToSellAtVariablePrice = 0;
if (tokenSupply <= tokensMintedDuringICO) {
tokensToSellAtICOPrice = _tokens;
} else if (tokenSupply > tokensMintedDuringICO && tokenSupply - _tokens >= tokensMintedDuringICO) {
tokensToSellAtVariablePrice = _tokens;
} else if (tokenSupply > tokensMintedDuringICO && tokenSupply - _tokens < tokensMintedDuringICO) {
tokensToSellAtVariablePrice = tokenSupply.sub(tokensMintedDuringICO);
tokensToSellAtICOPrice = _tokens.sub(tokensToSellAtVariablePrice);
} else {
revert();
}
assert(tokensToSellAtVariablePrice + tokensToSellAtICOPrice == _tokens);
uint ethFromICOPriceTokens;
uint ethFromVarPriceTokens;
if (tokensToSellAtICOPrice != 0) {
ethFromICOPriceTokens = tokensToSellAtICOPrice.mul(tokenPriceInitial_).div(1e18);
}
if (tokensToSellAtVariablePrice != 0) {
uint investmentBefore = toPowerOfThreeHalves(tokenSupply.div(MULTIPLIER * 1e6)).mul(2).div(3);
uint investmentAfter = toPowerOfThreeHalves((tokenSupply - tokensToSellAtVariablePrice).div(MULTIPLIER * 1e6)).mul(2).div(3);
ethFromVarPriceTokens = investmentBefore.sub(investmentAfter);
}
uint totalEthReceived = ethFromVarPriceTokens + ethFromICOPriceTokens;
assert(totalEthReceived > 0);
return totalEthReceived;
}
function transferFromInternal(address _from, address _toAddress, uint _amountOfTokens, bytes _data)
internal
{
require(regularPhase);
require(_toAddress != address(0x0));
address _customerAddress = _from;
uint _amountOfFrontEndTokens = _amountOfTokens;
if (theDividendsOf(true, _customerAddress) > 0) withdrawFrom(_customerAddress);
uint _amountOfDivTokens = _amountOfFrontEndTokens.mul(getUserAverageDividendRate(_customerAddress)).div(magnitude);
if (_customerAddress != msg.sender) {
allowed[_customerAddress][msg.sender] -= _amountOfTokens;
}
frontTokenBalanceLedger_[_customerAddress] = frontTokenBalanceLedger_[_customerAddress].sub(_amountOfFrontEndTokens);
frontTokenBalanceLedger_[_toAddress] = frontTokenBalanceLedger_[_toAddress].add(_amountOfFrontEndTokens);
dividendTokenBalanceLedger_[_customerAddress] = dividendTokenBalanceLedger_[_customerAddress].sub(_amountOfDivTokens);
dividendTokenBalanceLedger_[_toAddress] = dividendTokenBalanceLedger_[_toAddress].add(_amountOfDivTokens);
if (!userSelectedRate[_toAddress])
{
userSelectedRate[_toAddress] = true;
userDividendRate[_toAddress] = userDividendRate[_customerAddress];
}
payoutsTo_[_customerAddress] -= (int256) (profitPerDivToken * _amountOfDivTokens);
payoutsTo_[_toAddress] += (int256) (profitPerDivToken * _amountOfDivTokens);
uint length;
assembly {
length := extcodesize(_toAddress)
}
if (length > 0) {
ERC223Receiving receiver = ERC223Receiving(_toAddress);
receiver.tokenFallback(_from, _amountOfTokens, _data);
}
emit Transfer(_customerAddress, _toAddress, _amountOfFrontEndTokens);
}
function withdrawFrom(address _customerAddress)
internal
{
uint _dividends = theDividendsOf(false, _customerAddress);
payoutsTo_[_customerAddress] += (int256) (_dividends * magnitude);
_dividends += referralBalance_[_customerAddress];
referralBalance_[_customerAddress] = 0;
_customerAddress.transfer(_dividends);
emit onWithdraw(_customerAddress, _dividends);
}
function injectEther()
public
payable
onlyAdministrator
{
}
function toPowerOfThreeHalves(uint x) public pure returns (uint) {
return sqrt(x ** 3);
}
function toPowerOfTwoThirds(uint x) public pure returns (uint) {
return cbrt(x ** 2);
}
function sqrt(uint x) public pure returns (uint y) {
uint z = (x + 1) / 2;
y = x;
while (z < y) {
y = z;
z = (x / z + z) / 2;
}
}
function cbrt(uint x) public pure returns (uint y) {
uint z = (x + 1) / 3;
y = x;
while (z < y) {
y = z;
z = (x / (z * z) + 2 * z) / 3;
}
}
}
contract ZethrBankroll {
function receiveDividends() public payable {}
}
contract JackpotHolding is ERC223Receiving {
uint public payOutNumber = 0;
uint public payOutDivisor = 2;
ZethrBankrollControllerInterface controller;
Zethr zethr;
constructor (address _controllerAddress, address _zethrAddress) public {
controller = ZethrBankrollControllerInterface(_controllerAddress);
zethr = Zethr(_zethrAddress);
}
function() public payable {}
function tokenFallback(address , uint , bytes)
public
returns (bool)
{
}
function getJackpotBalance()
public view
returns (uint)
{
uint tempBalance;
for (uint i=0; i<7; i++) {
tempBalance += controller.tokenBankrolls(i).jackpotBalance() > 0 ? controller.tokenBankrolls(i).jackpotBalance() / payOutDivisor : 0;
}
tempBalance += zethr.balanceOf(address(this)) > 0 ? zethr.balanceOf(address(this)) / payOutDivisor : 0;
return tempBalance;
}
function ownerSetPayOutDivisor(uint _divisor)
public
ownerOnly
{
require(_divisor != 0);
payOutDivisor = _divisor;
}
function ownerSetControllerAddress(address _controllerAddress)
public
ownerOnly
{
controller = ZethrBankrollControllerInterface(_controllerAddress);
}
function ownerWithdrawZth(address _to)
public
ownerOnly
{
uint balance = zethr.balanceOf(address(this));
zethr.transfer(_to, balance);
}
function ownerWithdrawEth(address _to)
public
ownerOnly
{
_to.transfer(address(this).balance);
}
function gamePayOutWinner(address _winner)
public
gameOnly
{
for (uint i=0; i<7; i++) {
controller.tokenBankrolls(i).payJackpotToWinner(_winner, payOutDivisor);
}
uint payOutAmount;
if (zethr.balanceOf(address(this)) >= 1e10) {
payOutAmount = zethr.balanceOf(address(this)) / payOutDivisor;
}
if (payOutAmount >= 1e10) {
zethr.transfer(_winner, payOutAmount);
}
payOutNumber += 1;
emit JackpotPayOut(_winner, payOutNumber);
}
event JackpotPayOut(
address winner,
uint payOutNumber
);
modifier ownerOnly()
{
require(msg.sender == address(controller) || controller.multiSigWallet().isOwner(msg.sender));
_;
}
modifier gameOnly()
{
require(controller.validGameAddresses(msg.sender));
_;
}
}
contract ZethrGame {
using SafeMath for uint;
using SafeMath for uint56;
event Result (address player, uint amountWagered, int amountOffset);
event Wager (address player, uint amount, bytes data);
address[] pendingBetsQueue;
uint queueHead = 0;
uint queueTail = 0;
mapping(address => BetBase) bets;
struct BetBase {
uint56 tokenValue;
uint48 blockNumber;
uint8 tier;
}
mapping(address => uint) pendingBetsMapping;
ZethrBankrollControllerInterface controller;
bool paused;
uint minBet = 1e18;
uint resolverPercentage;
string gameName;
constructor (address _controllerAddress, uint _resolverPercentage, string _name) public {
controller = ZethrBankrollControllerInterface(_controllerAddress);
resolverPercentage = _resolverPercentage;
gameName = _name;
}
function getMaxProfit()
public view
returns (uint)
{
return ZethrTokenBankrollInterface(msg.sender).getMaxProfit(address(this));
}
function ownerPauseGame()
public
ownerOnly
{
paused = true;
}
function ownerResumeGame()
public
ownerOnly
{
paused = false;
}
function ownerSetResolverPercentage(uint _percentage)
public
ownerOnly
{
require(_percentage <= 1000000);
resolverPercentage = _percentage;
}
function ownerSetControllerAddress(address _controllerAddress)
public
ownerOnly
{
controller = ZethrBankrollControllerInterface(_controllerAddress);
}
function ownerSetGameName(string _name)
ownerOnly
public
{
gameName = _name;
}
function getGameName()
public view
returns (string)
{
return gameName;
}
function resolveExpiredBets(uint _numToResolve)
public
returns (uint tokensEarned_, uint queueHead_)
{
uint mQueue = queueHead;
uint head;
uint tail = (mQueue + _numToResolve) > pendingBetsQueue.length ? pendingBetsQueue.length : (mQueue + _numToResolve);
uint tokensEarned = 0;
for (head = mQueue; head < tail; head++) {
if (pendingBetsQueue[head] == address(0x0)) {
continue;
}
if (bets[pendingBetsQueue[head]].blockNumber != 0 && block.number > 256 + bets[pendingBetsQueue[head]].blockNumber) {
int sum = - finishBetFrom(pendingBetsQueue[head]);
if (sum > 0) {
tokensEarned += (uint(sum).mul(resolverPercentage)).div(1000000);
}
} else {
break;
}
}
queueHead = head;
if (tokensEarned >= 1e14) {
controller.gamePayoutResolver(msg.sender, tokensEarned);
}
return (tokensEarned, head);
}
function finishBet()
public
hasNotBetThisBlock(msg.sender)
returns (int)
{
return finishBetFrom(msg.sender);
}
function maxRandom(uint _blockn, address _entropy, uint _index)
private view
returns (uint256 randomNumber)
{
return uint256(keccak256(
abi.encodePacked(
blockhash(_blockn),
_entropy,
_index
)));
}
function random(uint256 _upper, uint256 _blockn, address _entropy, uint _index)
internal view
returns (uint256 randomNumber)
{
return maxRandom(_blockn, _entropy, _index) % _upper;
}
modifier hasNotBetThisBlock(address _sender)
{
require(bets[_sender].blockNumber != block.number);
_;
}
modifier bankrollOnly {
require(controller.isTokenBankroll(msg.sender));
_;
}
modifier isNotPaused {
require(!paused);
_;
}
modifier betIsValid(uint _betSize, uint _tier, bytes _data) {
uint divRate = ZethrTierLibrary.getDivRate(_tier);
require(isBetValid(_betSize, divRate, _data));
_;
}
modifier ownerOnly()
{
require(msg.sender == address(controller) || controller.multiSigWallet().isOwner(msg.sender));
_;
}
function execute(address _player, uint _tokenCount, uint _divRate, bytes _data) public;
function finishBetFrom(address _playerAddress) internal returns (int);
function isBetValid(uint _tokenCount, uint _divRate, bytes _data) public view returns (bool);
}
contract ZethrSlots is ZethrGame {
struct Bet {
uint56 tokenValue;
uint48 blockNumber;
uint8 tier;
uint8 numSpins;
}
uint[14] MULTIPLIER_BOUNDARIES = [uint(299), 3128, 44627, 46627, 49127, 51627, 53127, 82530, 150423, 310818, 364283, 417748, 471213, ~uint256(0)];
uint[14] MULTIPLIERS = [uint(5000), 2000, 300, 1100, 750, 900, 1300, 250, 150, 100, 200, 125, 133, 250];
JackpotHolding public jackpotHoldingContract;
constructor (address _controllerAddress, uint _resolverPercentage, string _name)
ZethrGame(_controllerAddress, _resolverPercentage, _name)
public
{
}
function getLastSpinOutput(address _playerAddress)
public view
returns (uint winAmount, uint lossAmount, uint jackpotAmount, uint jackpotWins, uint[] memory output)
{
Bet storage playerBetInStorage = getBet(_playerAddress);
Bet memory playerBet = playerBetInStorage;
require(playerBet.blockNumber != 0);
(winAmount, lossAmount, jackpotAmount, jackpotWins, output) = getSpinOutput(playerBet.blockNumber, playerBet.numSpins, playerBet.tokenValue.mul(1e14), _playerAddress);
return (winAmount, lossAmount, jackpotAmount, jackpotWins, output);
}
event SlotsResult(
uint _blockNumber,
address _target,
uint _numSpins,
uint _tokenValue,
uint _winAmount,
uint _lossAmount,
uint[] _output
);
function getSpinOutput(uint _blockNumber, uint _numSpins, uint _tokenValue, address _target)
public view
returns (uint winAmount, uint lossAmount, uint jackpotAmount, uint jackpotWins, uint[] memory output)
{
output = new uint[](_numSpins);
if (block.number - _blockNumber > 255) {
lossAmount = (_tokenValue.mul(_numSpins).mul(99)).div(100);
jackpotAmount = _tokenValue.mul(_numSpins).div(100);
} else {
for (uint i = 0; i < _numSpins; i++) {
output[i] = random(1000000, _blockNumber, _target, i) + 1;
if (output[i] < 2) {
jackpotWins++;
lossAmount += _tokenValue;
} else if (output[i] > 506856) {
lossAmount += (_tokenValue.mul(99)).div(100);
jackpotAmount += _tokenValue.div(100);
} else {
uint index;
for (index = 0; index < MULTIPLIER_BOUNDARIES.length; index++) {
if (output[i] < MULTIPLIER_BOUNDARIES[index]) break;
}
winAmount += _tokenValue.mul(MULTIPLIERS[index]).div(100);
}
}
}
emit SlotsResult(_blockNumber, _target, _numSpins, _tokenValue, winAmount, lossAmount, output);
return (winAmount, lossAmount, jackpotAmount, jackpotWins, output);
}
function getSpinResults(uint _blockNumber, uint _numSpins, uint _tokenValue, address _target)
public
returns (uint winAmount, uint lossAmount, uint jackpotAmount, uint jackpotWins)
{
if (block.number - _blockNumber > 255) {
lossAmount = (_tokenValue.mul(_numSpins).mul(99)).div(100);
jackpotAmount = _tokenValue.mul(_numSpins).div(100);
} else {
uint result;
for (uint i = 0; i < _numSpins; i++) {
result = random(1000000, _blockNumber, _target, i) + 1;
if (result < 2) {
jackpotWins++;
} else if (result > 506856) {
lossAmount += (_tokenValue.mul(99)).div(100);
jackpotAmount += _tokenValue.div(100);
} else {
uint index;
for (index = 0; index < MULTIPLIER_BOUNDARIES.length; index++) {
if (result < MULTIPLIER_BOUNDARIES[index]) break;
}
winAmount += _tokenValue.mul(MULTIPLIERS[index]).div(100);
}
}
}
return (winAmount, lossAmount, jackpotAmount, jackpotWins);
}
function ownerSetJackpotAddress(address _jackpotAddress)
public
ownerOnly
{
jackpotHoldingContract = JackpotHolding(_jackpotAddress);
}
function getBet(address _playerAddress)
internal view
returns (Bet storage)
{
BetBase storage betBase = bets[_playerAddress];
Bet storage playerBet;
assembly {
let tmp := betBase_slot
swap1
}
return playerBet;
}
function maxRandom(uint _blockn, address _entropy, uint _index)
private view
returns (uint256 randomNumber)
{
return uint256(keccak256(
abi.encodePacked(
blockhash(_blockn),
_entropy,
_index
)));
}
function random(uint256 _upper, uint256 _blockn, address _entropy, uint _index)
internal view
returns (uint256 randomNumber)
{
return maxRandom(_blockn, _entropy, _index) % _upper;
}
function finishBetFrom(address _playerAddress)
internal
returns (int )
{
uint winAmount;
uint lossAmount;
uint jackpotAmount;
uint jackpotWins;
Bet storage playerBetInStorage = getBet(_playerAddress);
Bet memory playerBet = playerBetInStorage;
require(playerBet.blockNumber != 0);
require(playerBet.blockNumber != 0);
playerBetInStorage.blockNumber = 0;
(winAmount, lossAmount, jackpotAmount, jackpotWins) = getSpinResults(playerBet.blockNumber, playerBet.numSpins, playerBet.tokenValue.mul(1e14), _playerAddress);
address tokenBankrollAddress = controller.getTokenBankrollAddressFromTier(playerBet.tier);
ZethrTokenBankrollInterface bankroll = ZethrTokenBankrollInterface(tokenBankrollAddress);
bankroll.gameTokenResolution(winAmount, _playerAddress, jackpotAmount, address(jackpotHoldingContract), playerBet.tokenValue.mul(1e14).mul(playerBet.numSpins));
if (jackpotWins > 0) {
for (uint x = 0; x < jackpotWins; x++) {
jackpotHoldingContract.gamePayOutWinner(_playerAddress);
}
}
uint index = pendingBetsMapping[_playerAddress];
pendingBetsQueue[index] = address(0x0);
pendingBetsMapping[_playerAddress] = 0;
emit Result(_playerAddress, playerBet.tokenValue.mul(1e14), int(winAmount) - int(lossAmount) - int(jackpotAmount));
return (int(winAmount) - int(lossAmount) - int(jackpotAmount));
}
function execute(address _player, uint _tokenCount, uint _tier, bytes _data)
isNotPaused
bankrollOnly
betIsValid(_tokenCount, _tier, _data)
hasNotBetThisBlock(_player)
public
{
Bet storage playerBet = getBet(_player);
if (playerBet.blockNumber != 0) {
finishBetFrom(_player);
}
uint8 spins = uint8(_data[0]);
playerBet.tokenValue = uint56(_tokenCount.div(spins).div(1e14));
playerBet.blockNumber = uint48(block.number);
playerBet.tier = uint8(_tier);
playerBet.numSpins = spins;
pendingBetsQueue.length++;
pendingBetsQueue[queueTail] = _player;
queueTail++;
pendingBetsMapping[_player] = queueTail - 1;
emit Wager(_player, _tokenCount, _data);
}
function isBetValid(uint _tokenCount, uint , bytes _data)
public view
returns (bool)
{
uint8 spins = uint8(_data[0]);
return (_tokenCount.div(spins).mul(50) <= getMaxProfit()) && (_tokenCount.div(spins) >= minBet);
}
}
