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Advanced Manual
Smart Contract Audit

May 5, 2022

Audit requested by

Illumi

0x3dE0986D0754A9FA2084c5bC4967e5bC032C9c47

Illumi / Security Audit

Table of Contents

1. Audit Summary

1.1 Audit scope

1.2 Tokenomics

1.3 Source Code

2. Disclaimer

3. Global Overview

3.1 Informational issues

3.2 Low-risk issues

3.3 Medium-risk issues

3.4 High-risk issues

4. Vulnerabilities Findings

5. Contract Privileges

5.1 Maximum Fee Limit Check

5.2 Contract Pausability Check

5.3 Max Transaction Amount Check

5.4 Exclude From Fees Check

5.5 Ability to Mint Check

5.6 Ability to Blacklist Check

5.7 Owner Privileges Check

6. Notes

6.1 Notes by Coinsult

6.2 Notes by Illumi

7. Contract Snapshot

8. Website Review

9. Certificate of Proof

Illumi / Security Audit

Audit Summary

Audit Scope

Project Name

Illumi

Blockchain

Binance Smart Chain

Smart Contract Language

Solidity

Contract Address

0x3dE0986D0754A9FA2084c5bC4967e5bC032C9c47

Audit Method

Static Analysis, Manual Review

Date of Audit

5 May 2022

This audit report has been prepared by Coinsult’s experts at the request of the client. In this audit, the results of the static analysis and the manual code review will be presented. The purpose of the audit is to see if the functions work as intended, and to identify potential security issues within the smart contract.

The information in this report should be used to understand the risks associated with the smart contract. This report can be used as a guide for the development team on how the contract could possibly be improved by remediating the issues that were identified.

Illumi / Security Audit

Tokenomics

Rank Address Quantity (Token) Percentage
1 0xc4ccc111f34a2dbce1477bb3f34a2157912b3e2b 100,000,000 100.0000%

 

Source Code

Coinsult was comissioned by Illumi to perform an audit based on the following code:
https://bscscan.com/address/0x3dE0986D0754A9FA2084c5bC4967e5bC032C9c47#code

Illumi / Security Audit

Disclaimer

This audit report has been prepared by Coinsult’s experts at the request of the client. In this audit, the results of the static analysis and the manual code review will be presented. The purpose of the audit is to see if the functions work as intended, and to identify potential security issues within the smart contract.

The information in this report should be used to understand the risks associated with the smart contract. This report can be used as a guide for the development team on how the contract could possibly be improved by remediating the issues that were identified.

Coinsult is not responsible if a project turns out to be a scam, rug-pull or honeypot. We only provide a detailed analysis for your own research.

Coinsult is not responsible for any financial losses. Nothing in this contract audit is financial advice, please do your own research.

The information provided in this audit is for informational purposes only and should not be considered investment advice. Coinsult does not endorse, recommend, support or suggest to invest in any project. 

Coinsult can not be held responsible for when a project turns out to be a rug-pull, honeypot or scam.

Illumi / Security Audit

Global Overview

Manual Code Review

In this audit report we will highlight the following issues:

Vulnerability Level

Total

Pending

Acknowledged

Resolved

0

0

0

0

8

0

0

0

0

0

0

0

0

0

0

0

Privilege Overview

Coinsult checked the following privileges:

Contract Privilege

Description

Owner can mint?

Owner can blacklist?

Owner can set fees > 25%?

Owner can exclude from fees?

Owner can pause trading?

Owner can set Max TX amount?

More owner priviliges are listed later in the report.

Illumi / Security Audit

Contract contains Reentrancy vulnerabilities

Additional information: This combination increases risk of malicious intent. While it may be justified by some complex mechanics (e.g. rebase, reflections, buyback). 

More information: Slither

				
					function _transferFrom(

        address sender,
        address recipient,
        uint256 amount
    ) internal returns (bool) {

        require(!blacklist[sender] && !blacklist[recipient], "in_blacklist");


        if (inSwap) {
            return _basicTransfer(sender, recipient, amount);
        }
        if (shouldRebase()) {
           rebase();
        }

        if (shouldAddLiquidity()) {
            addLiquidity();
        }

        if (shouldSwapBack()) {
            swapBack();
        }

        uint256 gonAmount = amount.mul(_gonsPerFragment);
        _gonBalances[sender] = _gonBalances[sender].sub(gonAmount);
        uint256 gonAmountReceived = shouldTakeFee(sender, recipient)
            ? takeFee(sender, recipient, gonAmount)
            : gonAmount;
        _gonBalances[recipient] = _gonBalances[recipient].add(
            gonAmountReceived
        );


        emit Transfer(
            sender,
            recipient,
            gonAmountReceived.div(_gonsPerFragment)
        );
        return true;
    }
				
			

Recommendation

Apply the check-effects-interactions pattern.

Exploit scenario

				
					    function withdrawBalance(){
        // send userBalance[msg.sender] Ether to msg.sender
        // if mgs.sender is a contract, it will call its fallback function
        if( ! (msg.sender.call.value(userBalance[msg.sender])() ) ){
            throw;
        }
        userBalance[msg.sender] = 0;
    }
				
			
Bob uses the re-entrancy bug to call withdrawBalance two times, and withdraw more than its initial deposit to the contract.

Illumi / Security Audit

Avoid relying on block.timestamp

block.timestamp can be manipulated by miners.

				
					_initRebaseStartTime = block.timestamp;
				
			

Recommendation

Do not use block.timestampnow or blockhash as a source of randomness

Exploit scenario

				
					contract Game {

    uint reward_determining_number;

    function guessing() external{
      reward_determining_number = uint256(block.blockhash(10000)) % 10;
    }
}
				
			

Eve is a miner. Eve calls guessing and re-orders the block containing the transaction. As a result, Eve wins the game.

Illumi / Security Audit

Too many digits

Literals with many digits are difficult to read and review.

				
					uint256 private constant INITIAL_FRAGMENTS_SUPPLY =
        100000000 * 10**DECIMALS;
				
			

Recommendation

Exploit scenario

				
					contract MyContract{
    uint 1_ether = 10000000000000000000; 
}
				
			

While 1_ether looks like 1 ether, it is 10 ether. As a result, it’s likely to be used incorrectly.

Illumi / Security Audit

No zero address validation for some functions

Detect missing zero address validation.

				
					 function setFeeReceivers(
        address _autoLiquidityReceiver,
        address _Treasuryreceiver,
        address _AssetbackedReceiver,
        address _Sellfee
    ) external onlyOwner {
        autoLiquidityReceiver = _autoLiquidityReceiver;
        Treasuryreceiver = _Treasuryreceiver;
        AssetbackedReceiver = _AssetbackedReceiver;
        Sellfee = _Sellfee;
    }
				
			

Recommendation

Check that the new address is not zero.

Exploit scenario

				
					contract C {

  modifier onlyAdmin {
    if (msg.sender != owner) throw;
    _;
  }

  function updateOwner(address newOwner) onlyAdmin external {
    owner = newOwner;
  }
}
				
			

Bob calls updateOwner without specifying the newOwner, soBob loses ownership of the contract.

Illumi / Security Audit

Functions that send Ether to arbitrary destinations

Unprotected call to a function sending Ether to an arbitrary address.

				
					function swapBack() internal swapping {

        uint256 amountToSwap = _gonBalances[address(this)].div(_gonsPerFragment);

        if( amountToSwap == 0) {
            return;
        }

        uint256 balanceBefore = address(this).balance;
        address[] memory path = new address[](2);
        path[0] = address(this);
        path[1] = router.WETH();

        
        router.swapExactTokensForETHSupportingFeeOnTransferTokens(
            amountToSwap,
            0,
            path,
            address(this),
            block.timestamp
        );

        uint256 amountETHToTreasuryAndSIF = address(this).balance.sub(
            balanceBefore
        );

        (bool success, ) = payable(Treasuryreceiver).call{
            value: amountETHToTreasuryAndSIF.mul(TreasuryFee).div(
                TreasuryFee.add(AssetbackedFee)
            ),
            gas: 30000
        }("");
        (success, ) = payable(AssetbackedReceiver).call{
            value: amountETHToTreasuryAndSIF.mul(AssetbackedFee).div(
                TreasuryFee.add(AssetbackedFee)
            ),
            gas: 30000
        }("");
    }
				
			

Recommendation

Ensure that an arbitrary user cannot withdraw unauthorized funds.

Exploit scenario

				
					contract ArbitrarySend{
    address destination;
    function setDestination(){
        destination = msg.sender;
    }

    function withdraw() public{
        destination.transfer(this.balance);
    }
}
				
			

Bob calls setDestination and withdraw. As a result he withdraws the contract’s balance.

Illumi / Security Audit

Write after write

Variables that are written but never read and written again.

				
					function swapBack() internal swapping {

        uint256 amountToSwap = _gonBalances[address(this)].div(_gonsPerFragment);

        if( amountToSwap == 0) {
            return;
        }

        uint256 balanceBefore = address(this).balance;
        address[] memory path = new address[](2);
        path[0] = address(this);
        path[1] = router.WETH();

        
        router.swapExactTokensForETHSupportingFeeOnTransferTokens(
            amountToSwap,
            0,
            path,
            address(this),
            block.timestamp
        );

        uint256 amountETHToTreasuryAndSIF = address(this).balance.sub(
            balanceBefore
        );

        (bool success, ) = payable(Treasuryreceiver).call{
            value: amountETHToTreasuryAndSIF.mul(TreasuryFee).div(
                TreasuryFee.add(AssetbackedFee)
            ),
            gas: 30000
        }("");
        (success, ) = payable(AssetbackedReceiver).call{
            value: amountETHToTreasuryAndSIF.mul(AssetbackedFee).div(
                TreasuryFee.add(AssetbackedFee)
            ),
            gas: 30000
        }("");
    }
				
			

Recommendation

Fix or remove the writes.

Exploit scenario

				
					```solidity
contract Buggy{
    function my_func() external initializer{
        // ...
        a = b;
        a = c;
        // ..
    }
}
				
			

`a` is first asigned to `b`, and then to `c`. As a result the first write does nothing.

Illumi / Security Audit

Divide before multiply

Solidity integer division might truncate. As a result, performing multiplication before division can sometimes avoid loss of precision.

				
					uint256 times = deltaTime.div(15 minutes);
        uint256 epoch = times.mul(15);
				
			

Recommendation

Consider ordering multiplication before division.

Exploit scenario

				
					contract A {
	function f(uint n) public {
        coins = (oldSupply / n) * interest;
    }
}
				
			

If n is greater than oldSupplycoins will be zero. For example, with oldSupply = 5; n = 10, interest = 2, coins will be zero. If (oldSupply * interest / n) was used, coins would have been 1. In general, it’s usually a good idea to re-arrange arithmetic to perform multiplication before division, unless the limit of a smaller type makes this dangerous.

Illumi / Security Audit

Conformance to Solidity naming conventions

Allow _ at the beginning of the mixed_case match for private variables and unused parameters.

				
					_decimals = decimals_;
				
			

Recommendation

Follow the Solidity naming convention.

Rule exceptions

  • Allow constant variable name/symbol/decimals to be lowercase (ERC20).
  • Allow _ at the beginning of the mixed_case match for private variables and unused parameters.

Illumi / Security Audit

Contract Privileges

Maximum Fee Limit Check

Coinsult tests if the owner of the smart contract can set the transfer, buy or sell fee to 25% or more. It is bad practice to set the fees to 25% or more, because owners can prevent healthy trading or even stop trading when the fees are set too high. 

Type of fee

Description

Transfer fee

Buy fee

Sell fee

Type of fee

Description

Max transfer fee

Max buy fee

Max sell fee

Illumi / Security Audit

Contract Pausability Check

Coinsult tests if the owner of the smart contract has the ability to pause the contract. If this is the case, users can no longer interact with the smart contract; users can no longer trade the token.

Privilege Check

Description

Can owner pause the contract?

Illumi / Security Audit

Max Transaction Amount Check

Coinsult tests if the owner of the smart contract can set the maximum amount of a transaction. If the transaction exceeds this limit, the transaction will revert. Owners could prevent normal transactions to take place if they abuse this function.

Privilege Check

Description

Can owner set max tx amount?

Illumi / Security Audit

Exclude From Fees Check

Coinsult tests if the owner of the smart contract can exclude addresses from paying tax fees. If the owner of the smart contract can exclude from fees, they could set high tax fees and exclude themselves from fees and benefit from 0% trading fees. However, some smart contracts require this function to exclude routers, dex, cex or other contracts / wallets from fees.

Privilege Check

Description

Can owner exclude from fees?

Illumi / Security Audit

Ability To Mint Check

Coinsult tests if the owner of the smart contract can mint new tokens. If the contract contains a mint function, we refer to the token’s total supply as non-fixed, allowing the token owner to “mint” more tokens whenever they want.

A mint function in the smart contract allows minting tokens at a later stage. A method to disable minting can also be added to stop the minting process irreversibly.

Minting tokens is done by sending a transaction that creates new tokens inside of the token smart contract. With the help of the smart contract function, an unlimited number of tokens can be created without spending additional energy or money.

Privilege Check

Description

Can owner mint?

Illumi / Security Audit

Ability To Blacklist Check

Coinsult tests if the owner of the smart contract can blacklist accounts from interacting with the smart contract. Blacklisting methods allow the contract owner to enter wallet addresses which are not allowed to interact with the smart contract. 

This method can be abused by token owners to prevent certain / all holders from trading the token. However, blacklists might be good for tokens that want to rule out certain addresses from interacting with a smart contract.

Privilege Check

Description

Can owner blacklist?

Illumi / Security Audit

Other Owner Privileges Check

Coinsult lists all important contract methods which the owner can interact with.

🟡 Owner can blacklist contract addresses

Illumi / Security Audit

Notes

Notes by Illumi

No notes provided by the team.

Notes by Coinsult

✅ No notes provided by Coinsult

Illumi / Security Audit

Contract Snapshot

This is how the constructor of the contract looked at the time of auditing the smart contract.

				
					contract ILM is ERC20Detailed, Ownable {

    using SafeMath for uint256;
    using SafeMathInt for int256;
    IPinkAntiBot public pinkAntiBot;
    bool public antiBotEnabled;

    event LogRebase(uint256 indexed epoch, uint256 totalSupply);

    string public _name = "ILLUMIFINANCE";
    string public _symbol = "ILM";
    uint8 public _decimals = 5;

    IPancakeSwapPair public pairContract;
    mapping(address => bool) _isFeeExempt;

    modifier validRecipient(address to) {
        require(to != address(0x0));
        _;
    }

    uint256 public constant DECIMALS = 5;
    uint256 public constant MAX_UINT256 = ~uint256(0);
    uint8 public constant RATE_DECIMALS = 7;
				
			

Illumi / Security Audit

Website Review

Coinsult checks the website completely manually and looks for visual, technical and textual errors. We also look at the security, speed and accessibility of the website. In short, a complete check to see if the website meets the current standard of the web development industry. 

Type of check

Description

Mobile friendly?

Contains jQuery errors?

Is SSL secured?

Contains spelling errors?

Illumi / Security Audit

Certificate of Proof

Illumi

Completed KYC Verification at Coinsult.net

Date: 5 May 2022

Illumi

Audited by Coinsult.net

Date: 5 May 2022

Coinsult

coinsult.net

End of report
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