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ESDAO [EverSafuDAO] Token

About ESDAO

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The EverSafu DAO will function as both governing body for the EverSafu ecosystem and a for-profit investment fund. Fixed APY - 96,486.45% through use of it's unique ASAR protocol. It's also a dual token reward that gives holders EverSAFU Reflection, making it a double earning. No team token | Community Driven ✅Audited by CoinScope(PinkSale Official Partner)

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Laser Scorebeta Last Audit: 15 May 2022

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Code:

Third Party Audit: untrusted audit


Too many vulnerabilities (Unchecked transfer, Reentrancy vulnerability, etc.). High risk of a scam. DYOR & manual audit are advised.

ESDAO.swapBack() (#874-916) sends eth to arbitrary user
Dangerous calls:
- (success) = address(daoReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(DAOFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#900-905)
- (success,None) = address(buybackReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(buybackFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#906-911)
Ensure that an arbitrary user cannot withdraw unauthorized funds.

Additional information: link

Reentrancy in ESDAO._transferFrom(address,address,uint256) (#759-802):
External calls:
- rebase() (#771)
- pairContract.sync() (#718)
- addLiquidity() (#775)
- router.swapExactTokensForETHSupportingFeeOnTransferTokens(amountToSwap,0,path,address(this),block.timestamp) (#851-857)
- router.addLiquidityETH{value: amountETHLiquidity}(address(this),amountToLiquify,0,0,autoLiquidityReceiver,block.timestamp) (#862-869)
- swapBack() (#779)
- router.swapExactTokensForETHSupportingFeeOnTransferTokens(amountToSwap,0,path,address(this),block.timestamp) (#888-894)
- (success) = address(daoReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(DAOFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#900-905)
- (success,None) = address(buybackReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(buybackFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#906-911)
- distributor.deposit{value: amountETHToDAOAndSIF.mul(ESDividendFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#913-915)
External calls sending eth:
- addLiquidity() (#775)
- router.addLiquidityETH{value: amountETHLiquidity}(address(this),amountToLiquify,0,0,autoLiquidityReceiver,block.timestamp) (#862-869)
- swapBack() (#779)
- (success) = address(daoReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(DAOFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#900-905)
- (success,None) = address(buybackReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(buybackFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#906-911)
- distributor.deposit{value: amountETHToDAOAndSIF.mul(ESDividendFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#913-915)
State variables written after the call(s):
- _gonBalances[sender] = _gonBalances[sender].sub(gonAmount) (#783)
- _gonBalances[recipient] = _gonBalances[recipient].add(gonAmountReceived) (#787-789)
- gonAmountReceived = takeFee(sender,recipient,gonAmount) (#784-786)
- _gonBalances[address(this)] = _gonBalances[address(this)].add(gonAmount.div(feeDenominator).mul(_daoFee.add(ESDividendFee).add(buybackFee))) (#819-821)
- _gonBalances[autoLiquidityReceiver] = _gonBalances[autoLiquidityReceiver].add(gonAmount.div(feeDenominator).mul(liquidityFee)) (#822-824)
- swapBack() (#779)
- inSwap = true (#626)
- inSwap = false (#628)
Apply the check-effects-interactions pattern.

Additional information: link

DividendDistributor.distributeDividend(address) (#461-472) ignores return value by ES.transfer(shareholder,amount) (#467)
Use SafeERC20, or ensure that the transfer/transferFrom return value is checked.

Additional information: link


Unable to verify that contract auditor is trusted: Certik, Quantstamp, Hacken, Solidity, Paladinsec, Openzeppelin, Verichains


Contract ownership is not renounced (belongs to a wallet)


Combination 1: Reentrancy vulnerabilities + Functions that send Ether to arbitraty destination. Usual for scams. May be justified by some complex mechanics (e.g. rebase, reflections). DYOR & manual audit are advised.


Combination 2: Unchecked transfer + Functions that send Ether to arbitraty destination. Usual for scams. May be justified by some complex mechanics (e.g. rebase, reflections). DYOR & manual audit are advised.


Combination 3: Reentrancy vulnerabilities + Unchecked transfer vulnerability. Usual for scams. May be justified by some complex mechanics (e.g. rebase, reflections). DYOR & manual audit are advised.

ESDAO.swapBack().success (#900) is written in both
(success) = address(daoReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(DAOFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#900-905)
(success,None) = address(buybackReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(buybackFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#906-911)
Fix or remove the writes.

Additional information: link


Not a direct threat, but may indicate unreliable intentions of developer. Widespread names (e.g. Elon, King, Moon, Doge) are common among meme-tokens and scams. The allow to gain free hype and attract unexperienced investors.

ESDAO.setFeeReceivers(address,address,address)._autoLiquidityReceiver (#1078) lacks a zero-check on :
- autoLiquidityReceiver = _autoLiquidityReceiver (#1082)
ESDAO.setFeeReceivers(address,address,address)._DAOReceiver (#1079) lacks a zero-check on :
- daoReceiver = _DAOReceiver (#1083)
ESDAO.setFeeReceivers(address,address,address)._buybackReceiver (#1080) lacks a zero-check on :
- buybackReceiver = _buybackReceiver (#1084)
Check that the address is not zero.

Additional information: link

DividendDistributor.distributeDividend(address) (#461-472) has external calls inside a loop: ES.transfer(shareholder,amount) (#467)
Favor pull over push strategy for external calls.

Additional information: link

Reentrancy in ESDAO.addLiquidity() (#830-872):
External calls:
- router.swapExactTokensForETHSupportingFeeOnTransferTokens(amountToSwap,0,path,address(this),block.timestamp) (#851-857)
- router.addLiquidityETH{value: amountETHLiquidity}(address(this),amountToLiquify,0,0,autoLiquidityReceiver,block.timestamp) (#862-869)
External calls sending eth:
- router.addLiquidityETH{value: amountETHLiquidity}(address(this),amountToLiquify,0,0,autoLiquidityReceiver,block.timestamp) (#862-869)
State variables written after the call(s):
- _lastAddLiquidityTime = block.timestamp (#871)
Reentrancy in ESDAO.constructor() (#650-686):
External calls:
- pair = IPancakeSwapFactory(router.factory()).createPair(router.WETH(),address(this)) (#654-657)
State variables written after the call(s):
- ESDividendReceiver = address(distributor) (#667)
- _allowedFragments[address(this)][address(router)] = uint256(- 1) (#663)
- _autoAddLiquidity = true (#680)
- _autoRebase = false (#679)
- _gonBalances[daoReceiver] = TOTAL_GONS (#675)
- _gonsPerFragment = TOTAL_GONS.div(_totalSupply) (#676)
- _initRebaseStartTime = block.timestamp (#677)
- _isFeeExempt[daoReceiver] = true (#681)
- _isFeeExempt[address(this)] = true (#682)
- _lastRebasedTime = block.timestamp (#678)
- _transferOwnership(daoReceiver) (#684)
- _owner = newOwner (#544)
- _totalSupply = INITIAL_FRAGMENTS_SUPPLY (#674)
- autoLiquidityReceiver = 0x49B5fA900A1665CbC69801d5806B657a74835087 (#659)
- buybackReceiver = 0xbfcD27a8E6c5a04D74bEB558c8b724f5BF195dE1 (#661)
- daoReceiver = 0x01d8CCa5F06Bf16c9b8D8d983FB8249430e7469a (#660)
- distributor = new DividendDistributor(0x10ED43C718714eb63d5aA57B78B54704E256024E) (#666)
- isDividendExempt[msg.sender] = true (#669)
- isDividendExempt[pair] = true (#670)
- isDividendExempt[address(this)] = true (#671)
- isDividendExempt[DEAD] = true (#672)
- pairContract = IPancakeSwapPair(pair) (#664)
Reentrancy in DividendDistributor.deposit() (#412-430):
External calls:
- router.swapExactETHForTokensSupportingFeeOnTransferTokens{value: msg.value}(0,path,address(this),block.timestamp) (#419-424)
State variables written after the call(s):
- dividendsPerShare = dividendsPerShare.add(dividendsPerShareAccuracyFactor.mul(amount).div(totalShares)) (#429)
- totalDividends = totalDividends.add(amount) (#428)
Reentrancy in DividendDistributor.distributeDividend(address) (#461-472):
External calls:
- ES.transfer(shareholder,amount) (#467)
State variables written after the call(s):
- shareholderClaims[shareholder] = block.timestamp (#468)
Reentrancy in DividendDistributor.setShare(address,uint256) (#396-410):
External calls:
- distributeDividend(shareholder) (#398)
- ES.transfer(shareholder,amount) (#467)
State variables written after the call(s):
- addShareholder(shareholder) (#402)
- shareholderIndexes[shareholder] = shareholders.length (#494)
- removeShareholder(shareholder) (#404)
- shareholderIndexes[shareholders[shareholders.length - 1]] = shareholderIndexes[shareholder] (#500)
- addShareholder(shareholder) (#402)
- shareholders.push(shareholder) (#495)
- removeShareholder(shareholder) (#404)
- shareholders[shareholderIndexes[shareholder]] = shareholders[shareholders.length - 1] (#499)
- shareholders.pop() (#501)
- totalShares = totalShares.sub(shares[shareholder].amount).add(amount) (#407)
Apply the check-effects-interactions pattern.

Additional information: link

Reentrancy in ESDAO._transferFrom(address,address,uint256) (#759-802):
External calls:
- rebase() (#771)
- pairContract.sync() (#718)
- addLiquidity() (#775)
- router.swapExactTokensForETHSupportingFeeOnTransferTokens(amountToSwap,0,path,address(this),block.timestamp) (#851-857)
- router.addLiquidityETH{value: amountETHLiquidity}(address(this),amountToLiquify,0,0,autoLiquidityReceiver,block.timestamp) (#862-869)
- swapBack() (#779)
- router.swapExactTokensForETHSupportingFeeOnTransferTokens(amountToSwap,0,path,address(this),block.timestamp) (#888-894)
- (success) = address(daoReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(DAOFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#900-905)
- (success,None) = address(buybackReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(buybackFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#906-911)
- distributor.deposit{value: amountETHToDAOAndSIF.mul(ESDividendFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#913-915)
- distributor.setShare(sender,balanceOf(sender)) (#791)
- distributor.setShare(recipient,balanceOf(recipient)) (#792)
- distributor.process(distributorGas) (#794)
External calls sending eth:
- addLiquidity() (#775)
- router.addLiquidityETH{value: amountETHLiquidity}(address(this),amountToLiquify,0,0,autoLiquidityReceiver,block.timestamp) (#862-869)
- swapBack() (#779)
- (success) = address(daoReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(DAOFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#900-905)
- (success,None) = address(buybackReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(buybackFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#906-911)
- distributor.deposit{value: amountETHToDAOAndSIF.mul(ESDividendFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#913-915)
Event emitted after the call(s):
- Transfer(sender,recipient,gonAmountReceived.div(_gonsPerFragment)) (#796-800)
Reentrancy in ESDAO._transferFrom(address,address,uint256) (#759-802):
External calls:
- rebase() (#771)
- pairContract.sync() (#718)
- addLiquidity() (#775)
- router.swapExactTokensForETHSupportingFeeOnTransferTokens(amountToSwap,0,path,address(this),block.timestamp) (#851-857)
- router.addLiquidityETH{value: amountETHLiquidity}(address(this),amountToLiquify,0,0,autoLiquidityReceiver,block.timestamp) (#862-869)
- swapBack() (#779)
- router.swapExactTokensForETHSupportingFeeOnTransferTokens(amountToSwap,0,path,address(this),block.timestamp) (#888-894)
- (success) = address(daoReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(DAOFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#900-905)
- (success,None) = address(buybackReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(buybackFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#906-911)
- distributor.deposit{value: amountETHToDAOAndSIF.mul(ESDividendFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#913-915)
External calls sending eth:
- addLiquidity() (#775)
- router.addLiquidityETH{value: amountETHLiquidity}(address(this),amountToLiquify,0,0,autoLiquidityReceiver,block.timestamp) (#862-869)
- swapBack() (#779)
- (success) = address(daoReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(DAOFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#900-905)
- (success,None) = address(buybackReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(buybackFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#906-911)
- distributor.deposit{value: amountETHToDAOAndSIF.mul(ESDividendFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#913-915)
Event emitted after the call(s):
- Transfer(sender,address(this),feeAmount.div(_gonsPerFragment)) (#826)
- gonAmountReceived = takeFee(sender,recipient,gonAmount) (#784-786)
Reentrancy in ESDAO.constructor() (#650-686):
External calls:
- pair = IPancakeSwapFactory(router.factory()).createPair(router.WETH(),address(this)) (#654-657)
Event emitted after the call(s):
- OwnershipTransferred(_owner,newOwner) (#543)
- _transferOwnership(daoReceiver) (#684)
- Transfer(address(0x0),daoReceiver,_totalSupply) (#685)
Reentrancy in ESDAO.rebase() (#688-721):
External calls:
- pairContract.sync() (#718)
Event emitted after the call(s):
- LogRebase(epoch,_totalSupply) (#720)
Apply the check-effects-interactions pattern.

Additional information: link

DividendDistributor.shouldDistribute(address) (#457-459) uses timestamp for comparisons
Dangerous comparisons:
- shareholderClaims[shareholder] + minPeriod < block.timestamp && getUnpaidEarnings(shareholder) > minDistribution (#458)
ESDAO.rebase() (#688-721) uses timestamp for comparisons
Dangerous comparisons:
- deltaTimeFromInit < (31536000) (#699)
- deltaTimeFromInit >= (31536000) (#701)
- deltaTimeFromInit >= ((15 * 31536000) / 10) (#703)
- deltaTimeFromInit >= (7 * 31536000) (#705)
- i < times (#709)
ESDAO.shouldRebase() (#943-950) uses timestamp for comparisons
Dangerous comparisons:
- _autoRebase && (_totalSupply < MAX_SUPPLY) && msg.sender != pair && ! inSwap && block.timestamp >= (_lastRebasedTime + 900) (#944-949)
ESDAO.shouldAddLiquidity() (#952-958) uses timestamp for comparisons
Dangerous comparisons:
- _autoAddLiquidity && ! inSwap && msg.sender != pair && block.timestamp >= (_lastAddLiquidityTime + 43200) (#953-957)
Avoid relying on block.timestamp.

Additional information: link

ESDAO.isContract(address) (#1119-1123) uses assembly
- INLINE ASM (#1121)
Do not use evm assembly.

Additional information: link

DividendDistributor.process(uint256) (#432-455) has costly operations inside a loop:
- currentIndex = 0 (#443)
DividendDistributor.distributeDividend(address) (#461-472) has costly operations inside a loop:
- totalDistributed = totalDistributed.add(amount) (#466)
DividendDistributor.process(uint256) (#432-455) has costly operations inside a loop:
- currentIndex ++ (#452)
Use a local variable to hold the loop computation result.

Additional information: link

SafeMath.mod(uint256,uint256) (#101-104) is never used and should be removed
SafeMathInt.abs(int256) (#46-49) is never used and should be removed
SafeMathInt.add(int256,int256) (#40-44) is never used and should be removed
SafeMathInt.div(int256,int256) (#28-32) is never used and should be removed
SafeMathInt.mul(int256,int256) (#20-26) is never used and should be removed
SafeMathInt.sub(int256,int256) (#34-38) is never used and should be removed
Remove unused functions.

Additional information: link

ESDAO.totalFee (#603-606) is set pre-construction with a non-constant function or state variable:
- liquidityFee.add(DAOFee).add(ESDividendFee).add(buybackFee)
Remove any initialization of state variables via non-constant state variables or function calls. If variables must be set upon contract deployment, locate initialization in the constructor instead.

Additional information: link

Pragma version^0.7.4 (#14) allows old versions
Deploy with any of the following Solidity versions: 0.5.16 - 0.5.17, 0.6.11 - 0.6.12, 0.7.5 - 0.7.6 Use a simple pragma version that allows any of these versions. Consider using the latest version of Solidity for testing.

Additional information: link

Low level call in ESDAO.swapBack() (#874-916):
- (success) = address(daoReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(DAOFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#900-905)
- (success,None) = address(buybackReceiver).call{gas: 30000,value: amountETHToDAOAndSIF.mul(buybackFee).div(DAOFee.add(ESDividendFee).add(buybackFee))}() (#906-911)
Avoid low-level calls. Check the call success. If the call is meant for a contract, check for code existence

Additional information: link

Function IPancakeSwapPair.DOMAIN_SEPARATOR() (#151) is not in mixedCase
Function IPancakeSwapPair.PERMIT_TYPEHASH() (#152) is not in mixedCase
Function IPancakeSwapPair.MINIMUM_LIQUIDITY() (#169) is not in mixedCase
Function IPancakeSwapRouter.WETH() (#189) is not in mixedCase
Parameter DividendDistributor.setDistributionCriteria(uint256,uint256)._minPeriod (#391) is not in mixedCase
Parameter DividendDistributor.setDistributionCriteria(uint256,uint256)._minDistribution (#391) is not in mixedCase
Variable DividendDistributor._token (#345) is not in mixedCase
Variable DividendDistributor.ES (#353) is not in mixedCase
Parameter ESDAO.setAutoRebase(bool)._flag (#966) is not in mixedCase
Parameter ESDAO.setAutoAddLiquidity(bool)._flag (#975) is not in mixedCase
Parameter ESDAO.checkFeeExempt(address)._addr (#1038) is not in mixedCase
Parameter ESDAO.setDistributionCriteria(uint256,uint256)._minPeriod (#1053) is not in mixedCase
Parameter ESDAO.setDistributionCriteria(uint256,uint256)._minDistribution (#1053) is not in mixedCase
Parameter ESDAO.setFeeReceivers(address,address,address)._autoLiquidityReceiver (#1078) is not in mixedCase
Parameter ESDAO.setFeeReceivers(address,address,address)._DAOReceiver (#1079) is not in mixedCase
Parameter ESDAO.setFeeReceivers(address,address,address)._buybackReceiver (#1080) is not in mixedCase
Parameter ESDAO.setWhitelist(address)._addr (#1097) is not in mixedCase
Parameter ESDAO.setBotBlacklist(address,bool)._botAddress (#1101) is not in mixedCase
Parameter ESDAO.setBotBlacklist(address,bool)._flag (#1101) is not in mixedCase
Parameter ESDAO.setLP(address)._address (#1107) is not in mixedCase
Variable ESDAO._isFeeExempt (#584) is not in mixedCase
Variable ESDAO.DAOFee (#599) is not in mixedCase
Variable ESDAO.ESDividendFee (#600) is not in mixedCase
Variable ESDAO.DEAD (#609) is not in mixedCase
Variable ESDAO.ZERO (#610) is not in mixedCase
Variable ESDAO.ESDividendReceiver (#617) is not in mixedCase
Variable ESDAO._autoRebase (#637) is not in mixedCase
Variable ESDAO._autoAddLiquidity (#638) is not in mixedCase
Variable ESDAO._initRebaseStartTime (#639) is not in mixedCase
Variable ESDAO._lastRebasedTime (#640) is not in mixedCase
Variable ESDAO._lastAddLiquidityTime (#641) is not in mixedCase
Variable ESDAO._totalSupply (#642) is not in mixedCase
Follow the Solidity naming convention.

Additional information: link

Variable IPancakeSwapRouter.addLiquidity(address,address,uint256,uint256,uint256,uint256,address,uint256).amountADesired (#194) is too similar to IPancakeSwapRouter.addLiquidity(address,address,uint256,uint256,uint256,uint256,address,uint256).amountBDesired (#195)
Prevent variables from having similar names.

Additional information: link

ESDAO.slitherConstructorVariables() (#576-1127) uses literals with too many digits:
- DEAD = 0x000000000000000000000000000000000000dEaD (#609)
ESDAO.slitherConstructorVariables() (#576-1127) uses literals with too many digits:
- ZERO = 0x0000000000000000000000000000000000000000 (#610)
ESDAO.slitherConstructorVariables() (#576-1127) uses literals with too many digits:
- distributorGas = 500000 (#618)
Use: Ether suffix, Time suffix, or The scientific notation

Additional information: link

SafeMathInt.MAX_INT256 (#18) is never used in SafeMathInt (#16-50)
Remove unused state variables.

Additional information: link

DividendDistributor.dividendsPerShareAccuracyFactor (#369) should be constant
ESDAO.DAOFee (#599) should be constant
ESDAO.DEAD (#609) should be constant
ESDAO.ESDividendFee (#600) should be constant
ESDAO.ZERO (#610) should be constant
ESDAO.buybackFee (#602) should be constant
ESDAO.feeDenominator (#607) should be constant
ESDAO.liquidityFee (#598) should be constant
ESDAO.sellFee (#601) should be constant
ESDAO.swapEnabled (#620) should be constant
Add the constant attributes to state variables that never change.

Additional information: link

owner() should be declared external:
- Ownable.owner() (#519-521)
renounceOwnership() should be declared external:
- Ownable.renounceOwnership() (#532-535)
transferOwnership(address) should be declared external:
- Ownable.transferOwnership(address) (#537-539)
name() should be declared external:
- ERC20Detailed.name() (#563-565)
symbol() should be declared external:
- ERC20Detailed.symbol() (#567-569)
decimals() should be declared external:
- ERC20Detailed.decimals() (#571-573)
getLiquidityBacking(uint256) should be declared external:
- ESDAO.getLiquidityBacking(uint256) (#1087-1095)
Use the external attribute for functions never called from the contract.

Additional information: link

DividendDistributor.setDistributionCriteria(uint256,uint256) (#391-394) should emit an event for:
- minPeriod = _minPeriod (#392)
- minDistribution = _minDistribution (#393)
Emit an event for critical parameter changes.

Additional information: link

ESDAO.rebase() (#688-721) performs a multiplication on the result of a division:
-times = deltaTime.div(900) (#694)
-epoch = times.mul(15) (#695)
ESDAO.rebase() (#688-721) performs a multiplication on the result of a division:
-times = deltaTime.div(900) (#694)
-_lastRebasedTime = _lastRebasedTime.add(times.mul(900)) (#716)
ESDAO.takeFee(address,address,uint256) (#804-828) performs a multiplication on the result of a division:
-feeAmount = gonAmount.div(feeDenominator).mul(_totalFee) (#817)
ESDAO.takeFee(address,address,uint256) (#804-828) performs a multiplication on the result of a division:
-_gonBalances[address(this)] = _gonBalances[address(this)].add(gonAmount.div(feeDenominator).mul(_daoFee.add(ESDividendFee).add(buybackFee))) (#819-821)
ESDAO.takeFee(address,address,uint256) (#804-828) performs a multiplication on the result of a division:
-_gonBalances[autoLiquidityReceiver] = _gonBalances[autoLiquidityReceiver].add(gonAmount.div(feeDenominator).mul(liquidityFee)) (#822-824)
ESDAO.getLiquidityBacking(uint256) (#1087-1095) performs a multiplication on the result of a division:
-liquidityBalance = _gonBalances[pair].div(_gonsPerFragment) (#1092)
-accuracy.mul(liquidityBalance.mul(2)).div(getCirculatingSupply()) (#1093-1094)
Consider ordering multiplication before division.

Additional information: link

Reentrancy in DividendDistributor.distributeDividend(address) (#461-472):
External calls:
- ES.transfer(shareholder,amount) (#467)
State variables written after the call(s):
- shares[shareholder].totalRealised = shares[shareholder].totalRealised.add(amount) (#469)
- shares[shareholder].totalExcluded = getCumulativeDividends(shares[shareholder].amount) (#470)
Reentrancy in DividendDistributor.process(uint256) (#432-455):
External calls:
- distributeDividend(shareholders[currentIndex]) (#447)
- ES.transfer(shareholder,amount) (#467)
State variables written after the call(s):
- currentIndex ++ (#452)
Reentrancy in DividendDistributor.setShare(address,uint256) (#396-410):
External calls:
- distributeDividend(shareholder) (#398)
- ES.transfer(shareholder,amount) (#467)
State variables written after the call(s):
- shares[shareholder].amount = amount (#408)
- shares[shareholder].totalExcluded = getCumulativeDividends(shares[shareholder].amount) (#409)
Apply the check-effects-interactions pattern.

Additional information: link

ESDAO.rebase().rebaseRate (#691) is a local variable never initialized
Initialize all the variables. If a variable is meant to be initialized to zero, explicitly set it to zero to improve code readability.

Additional information: link

ESDAO.addLiquidity() (#830-872) ignores return value by router.addLiquidityETH{value: amountETHLiquidity}(address(this),amountToLiquify,0,0,autoLiquidityReceiver,block.timestamp) (#862-869)
Ensure that all the return values of the function calls are used.

Additional information: link

Holders:

Contract has 12% buy tax and 15% sell tax.
Taxes are suspiciously high (over 10%) and contract ownership is not renounced. Token has a high risk of becoming a honeypot.


Swap operations require suspiciously high gas. Contract logic is complex and may disguise some form of scam.


Average 30d PancakeSwap liquidity is low.


Average 30d PancakeSwap volume is low.


Average 30d number of PancakeSwap swaps is low.


Number of Binance Smart Chain (BSC) token holders is low.


Token is deployed only at one blockchain


Token has only one trading pair


Unable to find Blog account (Reddit or Medium)


Unable to find Youtube account


Unable to find Discord account

Search:


BscScan page for the token does not contain additional info: website, socials, description, etc.

Additional information: link


Unable to find token on CoinGecko

Additional information: link


Unable to find token on CoinMarketCap

Additional information: link


Unable to verify that token and website are owned by the same team (no listings + unable to find contract on website)


Unable to verify token contract address on the website


Unable to find whitepaper link on the website


Token is not listed at Mobula.Finance

Additional information: link


Unable to find token on CoinHunt

Additional information: link


Young tokens have high risks of scam / price dump / death


Young tokens have high risks of scam / price dump / death


Young tokens have high risks of scam / price dump / death


Token has no active CoinGecko listing / rank


Token has no active CoinMarketCap listing / rank

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