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Latest 25 from a total of 100 transactions
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Withdraw | 7966532 | 2018 days ago | IN | 0 ETH | 0.00004592 | ||||
Sell My Tokens | 7966500 | 2018 days ago | IN | 0 ETH | 0.00005358 | ||||
Sell My Tokens | 7966500 | 2018 days ago | IN | 0 ETH | 0.00003858 | ||||
Get Me Out Of He... | 6040692 | 2341 days ago | IN | 0 ETH | 0.00006262 | ||||
Get Me Out Of He... | 5928875 | 2360 days ago | IN | 0 ETH | 0.00062627 | ||||
Withdraw | 5855981 | 2373 days ago | IN | 0 ETH | 0.00004592 | ||||
Get Me Out Of He... | 5746907 | 2391 days ago | IN | 0 ETH | 0.00075152 | ||||
Withdraw | 5724297 | 2395 days ago | IN | 0 ETH | 0.00032148 | ||||
Fund | 5703359 | 2399 days ago | IN | 0.1 ETH | 0.00148506 | ||||
Get Me Out Of He... | 5699015 | 2400 days ago | IN | 0 ETH | 0.00068889 | ||||
Get Me Out Of He... | 5686090 | 2402 days ago | IN | 0 ETH | 0.00025022 | ||||
Get Me Out Of He... | 5679491 | 2403 days ago | IN | 0 ETH | 0.00062555 | ||||
Get Me Out Of He... | 5669149 | 2405 days ago | IN | 0 ETH | 0.00081321 | ||||
Fund | 5655490 | 2408 days ago | IN | 0.001 ETH | 0.00089181 | ||||
Fund | 5642190 | 2410 days ago | IN | 0.005 ETH | 0.00059181 | ||||
Fund | 5640744 | 2410 days ago | IN | 0.03 ETH | 0.00071017 | ||||
Fund | 5632039 | 2412 days ago | IN | 0.03 ETH | 0.00059181 | ||||
Fund | 5618312 | 2414 days ago | IN | 0.025 ETH | 0.00059181 | ||||
Fund | 5618280 | 2414 days ago | IN | 0.015 ETH | 0.00059253 | ||||
Fund | 5611095 | 2416 days ago | IN | 0.01 ETH | 0.00047402 | ||||
Withdraw | 5608000 | 2416 days ago | IN | 0 ETH | 0.0001837 | ||||
Sell My Tokens | 5607783 | 2416 days ago | IN | 0 ETH | 0.00022935 | ||||
Get Me Out Of He... | 5603737 | 2417 days ago | IN | 0 ETH | 0.00018766 | ||||
Fund | 5578241 | 2421 days ago | IN | 0.0059 ETH | 0.00023672 | ||||
Reinvest Dividen... | 5562469 | 2424 days ago | IN | 0 ETH | 0.00013742 |
Latest 25 internal transactions (View All)
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7966532 | 2018 days ago | 0.39219265 ETH | ||||
6040692 | 2341 days ago | 0.07030156 ETH | ||||
5928875 | 2360 days ago | 0.0039997 ETH | ||||
5855981 | 2373 days ago | 0.00091702 ETH | ||||
5746907 | 2391 days ago | 0.0868506 ETH | ||||
5724297 | 2395 days ago | 0.00638643 ETH | ||||
5699015 | 2400 days ago | 0.14088822 ETH | ||||
5686090 | 2402 days ago | 0.01102381 ETH | ||||
5679491 | 2403 days ago | 0.02989637 ETH | ||||
5669149 | 2405 days ago | 0.01796762 ETH | ||||
5608000 | 2416 days ago | 0.04955685 ETH | ||||
5603737 | 2417 days ago | 0.12305336 ETH | ||||
5559826 | 2424 days ago | 0.01199187 ETH | ||||
5550735 | 2426 days ago | 0.12145904 ETH | ||||
5550371 | 2426 days ago | 0.0065327 ETH | ||||
5539786 | 2428 days ago | 0.07596664 ETH | ||||
5515481 | 2432 days ago | 0.19295444 ETH | ||||
5510858 | 2433 days ago | 0.08945276 ETH | ||||
5499919 | 2435 days ago | 0.00028188 ETH | ||||
5496654 | 2435 days ago | 0.02808005 ETH | ||||
5491507 | 2436 days ago | 0.0082293 ETH | ||||
5485641 | 2437 days ago | 0.00155971 ETH | ||||
5480038 | 2438 days ago | 0.00980342 ETH | ||||
5474248 | 2439 days ago | 0.00155779 ETH | ||||
5441675 | 2445 days ago | 0.04628558 ETH |
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Similar Match Source Code This contract matches the deployed Bytecode of the Source Code for Contract 0xc908A341...61B1C9946 The constructor portion of the code might be different and could alter the actual behaviour of the contract
Contract Name:
EthPyramid
Compiler Version
v0.4.20-nightly.2018.1.29+commit.a668b9de
Optimization Enabled:
Yes with 200 runs
Other Settings:
default evmVersion
Contract Source Code (Solidity)
/** *Submitted for verification at Etherscan.io on 2018-02-02 */ pragma solidity ^0.4.18; /* ,/`. ,'/ __`. ,'_/_ _ _`. ,'__/_ ___ _ `. ,'_ /___ __ _ __ `. '-.._/___...-"-.-..__`. B EthPyramid. A no-bullshit, transparent, self-sustaining pyramid scheme. Inspired by https://test.jochen-hoenicke.de/eth/ponzitoken/ Developers: Arc Divine Norsefire ToCsIcK Front-End: Cardioth tenmei Trendium Moral Support: DeadCow.Rat Dots FatKreamy Kaseylol QuantumDeath666 Quentin Shit-Tier: HentaiChrist */ contract EthPyramid { // scaleFactor is used to convert Ether into tokens and vice-versa: they're of different // orders of magnitude, hence the need to bridge between the two. uint256 constant scaleFactor = 0x10000000000000000; // 2^64 // CRR = 50% // CRR is Cash Reserve Ratio (in this case Crypto Reserve Ratio). // For more on this: check out https://en.wikipedia.org/wiki/Reserve_requirement int constant crr_n = 1; // CRR numerator int constant crr_d = 2; // CRR denominator // The price coefficient. Chosen such that at 1 token total supply // the amount in reserve is 0.5 ether and token price is 1 Ether. int constant price_coeff = -0x296ABF784A358468C; // Typical values that we have to declare. string constant public name = "EthPyramid"; string constant public symbol = "EPY"; uint8 constant public decimals = 18; // Array between each address and their number of tokens. mapping(address => uint256) public tokenBalance; // Array between each address and how much Ether has been paid out to it. // Note that this is scaled by the scaleFactor variable. mapping(address => int256) public payouts; // Variable tracking how many tokens are in existence overall. uint256 public totalSupply; // Aggregate sum of all payouts. // Note that this is scaled by the scaleFactor variable. int256 totalPayouts; // Variable tracking how much Ether each token is currently worth. // Note that this is scaled by the scaleFactor variable. uint256 earningsPerToken; // Current contract balance in Ether uint256 public contractBalance; function EthPyramid() public {} // The following functions are used by the front-end for display purposes. // Returns the number of tokens currently held by _owner. function balanceOf(address _owner) public constant returns (uint256 balance) { return tokenBalance[_owner]; } // Withdraws all dividends held by the caller sending the transaction, updates // the requisite global variables, and transfers Ether back to the caller. function withdraw() public { // Retrieve the dividends associated with the address the request came from. var balance = dividends(msg.sender); // Update the payouts array, incrementing the request address by `balance`. payouts[msg.sender] += (int256) (balance * scaleFactor); // Increase the total amount that's been paid out to maintain invariance. totalPayouts += (int256) (balance * scaleFactor); // Send the dividends to the address that requested the withdraw. contractBalance = sub(contractBalance, balance); msg.sender.transfer(balance); } // Converts the Ether accrued as dividends back into EPY tokens without having to // withdraw it first. Saves on gas and potential price spike loss. function reinvestDividends() public { // Retrieve the dividends associated with the address the request came from. var balance = dividends(msg.sender); // Update the payouts array, incrementing the request address by `balance`. // Since this is essentially a shortcut to withdrawing and reinvesting, this step still holds. payouts[msg.sender] += (int256) (balance * scaleFactor); // Increase the total amount that's been paid out to maintain invariance. totalPayouts += (int256) (balance * scaleFactor); // Assign balance to a new variable. uint value_ = (uint) (balance); // If your dividends are worth less than 1 szabo, or more than a million Ether // (in which case, why are you even here), abort. if (value_ < 0.000001 ether || value_ > 1000000 ether) revert(); // msg.sender is the address of the caller. var sender = msg.sender; // A temporary reserve variable used for calculating the reward the holder gets for buying tokens. // (Yes, the buyer receives a part of the distribution as well!) var res = reserve() - balance; // 10% of the total Ether sent is used to pay existing holders. var fee = div(value_, 10); // The amount of Ether used to purchase new tokens for the caller. var numEther = value_ - fee; // The number of tokens which can be purchased for numEther. var numTokens = calculateDividendTokens(numEther, balance); // The buyer fee, scaled by the scaleFactor variable. var buyerFee = fee * scaleFactor; // Check that we have tokens in existence (this should always be true), or // else you're gonna have a bad time. if (totalSupply > 0) { // Compute the bonus co-efficient for all existing holders and the buyer. // The buyer receives part of the distribution for each token bought in the // same way they would have if they bought each token individually. var bonusCoEff = (scaleFactor - (res + numEther) * numTokens * scaleFactor / (totalSupply + numTokens) / numEther) * (uint)(crr_d) / (uint)(crr_d-crr_n); // The total reward to be distributed amongst the masses is the fee (in Ether) // multiplied by the bonus co-efficient. var holderReward = fee * bonusCoEff; buyerFee -= holderReward; // Fee is distributed to all existing token holders before the new tokens are purchased. // rewardPerShare is the amount gained per token thanks to this buy-in. var rewardPerShare = holderReward / totalSupply; // The Ether value per token is increased proportionally. earningsPerToken += rewardPerShare; } // Add the numTokens which were just created to the total supply. We're a crypto central bank! totalSupply = add(totalSupply, numTokens); // Assign the tokens to the balance of the buyer. tokenBalance[sender] = add(tokenBalance[sender], numTokens); // Update the payout array so that the buyer cannot claim dividends on previous purchases. // Also include the fee paid for entering the scheme. // First we compute how much was just paid out to the buyer... var payoutDiff = (int256) ((earningsPerToken * numTokens) - buyerFee); // Then we update the payouts array for the buyer with this amount... payouts[sender] += payoutDiff; // And then we finally add it to the variable tracking the total amount spent to maintain invariance. totalPayouts += payoutDiff; } // Sells your tokens for Ether. This Ether is assigned to the callers entry // in the tokenBalance array, and therefore is shown as a dividend. A second // call to withdraw() must be made to invoke the transfer of Ether back to your address. function sellMyTokens() public { var balance = balanceOf(msg.sender); sell(balance); } // The slam-the-button escape hatch. Sells the callers tokens for Ether, then immediately // invokes the withdraw() function, sending the resulting Ether to the callers address. function getMeOutOfHere() public { sellMyTokens(); withdraw(); } // Gatekeeper function to check if the amount of Ether being sent isn't either // too small or too large. If it passes, goes direct to buy(). function fund() payable public { // Don't allow for funding if the amount of Ether sent is less than 1 szabo. if (msg.value > 0.000001 ether) { contractBalance = add(contractBalance, msg.value); buy(); } else { revert(); } } // Function that returns the (dynamic) price of buying a finney worth of tokens. function buyPrice() public constant returns (uint) { return getTokensForEther(1 finney); } // Function that returns the (dynamic) price of selling a single token. function sellPrice() public constant returns (uint) { var eth = getEtherForTokens(1 finney); var fee = div(eth, 10); return eth - fee; } // Calculate the current dividends associated with the caller address. This is the net result // of multiplying the number of tokens held by their current value in Ether and subtracting the // Ether that has already been paid out. function dividends(address _owner) public constant returns (uint256 amount) { return (uint256) ((int256)(earningsPerToken * tokenBalance[_owner]) - payouts[_owner]) / scaleFactor; } // Version of withdraw that extracts the dividends and sends the Ether to the caller. // This is only used in the case when there is no transaction data, and that should be // quite rare unless interacting directly with the smart contract. function withdrawOld(address to) public { // Retrieve the dividends associated with the address the request came from. var balance = dividends(msg.sender); // Update the payouts array, incrementing the request address by `balance`. payouts[msg.sender] += (int256) (balance * scaleFactor); // Increase the total amount that's been paid out to maintain invariance. totalPayouts += (int256) (balance * scaleFactor); // Send the dividends to the address that requested the withdraw. contractBalance = sub(contractBalance, balance); to.transfer(balance); } // Internal balance function, used to calculate the dynamic reserve value. function balance() internal constant returns (uint256 amount) { // msg.value is the amount of Ether sent by the transaction. return contractBalance - msg.value; } function buy() internal { // Any transaction of less than 1 szabo is likely to be worth less than the gas used to send it. if (msg.value < 0.000001 ether || msg.value > 1000000 ether) revert(); // msg.sender is the address of the caller. var sender = msg.sender; // 10% of the total Ether sent is used to pay existing holders. var fee = div(msg.value, 10); // The amount of Ether used to purchase new tokens for the caller. var numEther = msg.value - fee; // The number of tokens which can be purchased for numEther. var numTokens = getTokensForEther(numEther); // The buyer fee, scaled by the scaleFactor variable. var buyerFee = fee * scaleFactor; // Check that we have tokens in existence (this should always be true), or // else you're gonna have a bad time. if (totalSupply > 0) { // Compute the bonus co-efficient for all existing holders and the buyer. // The buyer receives part of the distribution for each token bought in the // same way they would have if they bought each token individually. var bonusCoEff = (scaleFactor - (reserve() + numEther) * numTokens * scaleFactor / (totalSupply + numTokens) / numEther) * (uint)(crr_d) / (uint)(crr_d-crr_n); // The total reward to be distributed amongst the masses is the fee (in Ether) // multiplied by the bonus co-efficient. var holderReward = fee * bonusCoEff; buyerFee -= holderReward; // Fee is distributed to all existing token holders before the new tokens are purchased. // rewardPerShare is the amount gained per token thanks to this buy-in. var rewardPerShare = holderReward / totalSupply; // The Ether value per token is increased proportionally. earningsPerToken += rewardPerShare; } // Add the numTokens which were just created to the total supply. We're a crypto central bank! totalSupply = add(totalSupply, numTokens); // Assign the tokens to the balance of the buyer. tokenBalance[sender] = add(tokenBalance[sender], numTokens); // Update the payout array so that the buyer cannot claim dividends on previous purchases. // Also include the fee paid for entering the scheme. // First we compute how much was just paid out to the buyer... var payoutDiff = (int256) ((earningsPerToken * numTokens) - buyerFee); // Then we update the payouts array for the buyer with this amount... payouts[sender] += payoutDiff; // And then we finally add it to the variable tracking the total amount spent to maintain invariance. totalPayouts += payoutDiff; } // Sell function that takes tokens and converts them into Ether. Also comes with a 10% fee // to discouraging dumping, and means that if someone near the top sells, the fee distributed // will be *significant*. function sell(uint256 amount) internal { // Calculate the amount of Ether that the holders tokens sell for at the current sell price. var numEthersBeforeFee = getEtherForTokens(amount); // 10% of the resulting Ether is used to pay remaining holders. var fee = div(numEthersBeforeFee, 10); // Net Ether for the seller after the fee has been subtracted. var numEthers = numEthersBeforeFee - fee; // *Remove* the numTokens which were just sold from the total supply. We're /definitely/ a crypto central bank. totalSupply = sub(totalSupply, amount); // Remove the tokens from the balance of the buyer. tokenBalance[msg.sender] = sub(tokenBalance[msg.sender], amount); // Update the payout array so that the seller cannot claim future dividends unless they buy back in. // First we compute how much was just paid out to the seller... var payoutDiff = (int256) (earningsPerToken * amount + (numEthers * scaleFactor)); // We reduce the amount paid out to the seller (this effectively resets their payouts value to zero, // since they're selling all of their tokens). This makes sure the seller isn't disadvantaged if // they decide to buy back in. payouts[msg.sender] -= payoutDiff; // Decrease the total amount that's been paid out to maintain invariance. totalPayouts -= payoutDiff; // Check that we have tokens in existence (this is a bit of an irrelevant check since we're // selling tokens, but it guards against division by zero). if (totalSupply > 0) { // Scale the Ether taken as the selling fee by the scaleFactor variable. var etherFee = fee * scaleFactor; // Fee is distributed to all remaining token holders. // rewardPerShare is the amount gained per token thanks to this sell. var rewardPerShare = etherFee / totalSupply; // The Ether value per token is increased proportionally. earningsPerToken = add(earningsPerToken, rewardPerShare); } } // Dynamic value of Ether in reserve, according to the CRR requirement. function reserve() internal constant returns (uint256 amount) { return sub(balance(), ((uint256) ((int256) (earningsPerToken * totalSupply) - totalPayouts) / scaleFactor)); } // Calculates the number of tokens that can be bought for a given amount of Ether, according to the // dynamic reserve and totalSupply values (derived from the buy and sell prices). function getTokensForEther(uint256 ethervalue) public constant returns (uint256 tokens) { return sub(fixedExp(fixedLog(reserve() + ethervalue)*crr_n/crr_d + price_coeff), totalSupply); } // Semantically similar to getTokensForEther, but subtracts the callers balance from the amount of Ether returned for conversion. function calculateDividendTokens(uint256 ethervalue, uint256 subvalue) public constant returns (uint256 tokens) { return sub(fixedExp(fixedLog(reserve() - subvalue + ethervalue)*crr_n/crr_d + price_coeff), totalSupply); } // Converts a number tokens into an Ether value. function getEtherForTokens(uint256 tokens) public constant returns (uint256 ethervalue) { // How much reserve Ether do we have left in the contract? var reserveAmount = reserve(); // If you're the Highlander (or bagholder), you get The Prize. Everything left in the vault. if (tokens == totalSupply) return reserveAmount; // If there would be excess Ether left after the transaction this is called within, return the Ether // corresponding to the equation in Dr Jochen Hoenicke's original Ponzi paper, which can be found // at https://test.jochen-hoenicke.de/eth/ponzitoken/ in the third equation, with the CRR numerator // and denominator altered to 1 and 2 respectively. return sub(reserveAmount, fixedExp((fixedLog(totalSupply - tokens) - price_coeff) * crr_d/crr_n)); } // You don't care about these, but if you really do they're hex values for // co-efficients used to simulate approximations of the log and exp functions. int256 constant one = 0x10000000000000000; uint256 constant sqrt2 = 0x16a09e667f3bcc908; uint256 constant sqrtdot5 = 0x0b504f333f9de6484; int256 constant ln2 = 0x0b17217f7d1cf79ac; int256 constant ln2_64dot5 = 0x2cb53f09f05cc627c8; int256 constant c1 = 0x1ffffffffff9dac9b; int256 constant c3 = 0x0aaaaaaac16877908; int256 constant c5 = 0x0666664e5e9fa0c99; int256 constant c7 = 0x049254026a7630acf; int256 constant c9 = 0x038bd75ed37753d68; int256 constant c11 = 0x03284a0c14610924f; // The polynomial R = c1*x + c3*x^3 + ... + c11 * x^11 // approximates the function log(1+x)-log(1-x) // Hence R(s) = log((1+s)/(1-s)) = log(a) function fixedLog(uint256 a) internal pure returns (int256 log) { int32 scale = 0; while (a > sqrt2) { a /= 2; scale++; } while (a <= sqrtdot5) { a *= 2; scale--; } int256 s = (((int256)(a) - one) * one) / ((int256)(a) + one); var z = (s*s) / one; return scale * ln2 + (s*(c1 + (z*(c3 + (z*(c5 + (z*(c7 + (z*(c9 + (z*c11/one)) /one))/one))/one))/one))/one); } int256 constant c2 = 0x02aaaaaaaaa015db0; int256 constant c4 = -0x000b60b60808399d1; int256 constant c6 = 0x0000455956bccdd06; int256 constant c8 = -0x000001b893ad04b3a; // The polynomial R = 2 + c2*x^2 + c4*x^4 + ... // approximates the function x*(exp(x)+1)/(exp(x)-1) // Hence exp(x) = (R(x)+x)/(R(x)-x) function fixedExp(int256 a) internal pure returns (uint256 exp) { int256 scale = (a + (ln2_64dot5)) / ln2 - 64; a -= scale*ln2; int256 z = (a*a) / one; int256 R = ((int256)(2) * one) + (z*(c2 + (z*(c4 + (z*(c6 + (z*c8/one))/one))/one))/one); exp = (uint256) (((R + a) * one) / (R - a)); if (scale >= 0) exp <<= scale; else exp >>= -scale; return exp; } // The below are safemath implementations of the four arithmetic operators // designed to explicitly prevent over- and under-flows of integer values. function mul(uint256 a, uint256 b) internal pure returns (uint256) { if (a == 0) { return 0; } uint256 c = a * b; assert(c / a == b); return c; } function div(uint256 a, uint256 b) internal pure returns (uint256) { // assert(b > 0); // Solidity automatically throws when dividing by 0 uint256 c = a / b; // assert(a == b * c + a % b); // There is no case in which this doesn't hold return c; } function sub(uint256 a, uint256 b) internal pure returns (uint256) { assert(b <= a); return a - b; } function add(uint256 a, uint256 b) internal pure returns (uint256) { uint256 c = a + b; assert(c >= a); return c; } // This allows you to buy tokens by sending Ether directly to the smart contract // without including any transaction data (useful for, say, mobile wallet apps). function () payable public { // msg.value is the amount of Ether sent by the transaction. if (msg.value > 0) { fund(); } else { withdrawOld(msg.sender); } } }
Contract Security Audit
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Deployed Bytecode
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Swarm Source
bzzr://6c7d107dcbe6f00e6ccb3d36b76f1e1c60de2a3c015200fad50d432f2f7f92f3
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Multichain Portfolio | 30 Chains
Chain | Token | Portfolio % | Price | Amount | Value |
---|---|---|---|---|---|
ETH | Ether (ETH) | 100.00% | $3,395.81 | 0.0212 | $71.83 |
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