Mitigation

this issue would not allow to access other users funds and only happens if the user passes these kind of swaps himself. The multi-swap feature is mainly used to allow swapping multiple different tokens into one, which is then fully swapped.

#CODE4ARENA #MEDIUM #REPORT #TRANFER #LIFINANCE

(code-423n4/2022-03-lifinance-findings)
Source, LibSwap, Swapper

Number: 5
Problem: msg.value inside the loop
Any native assets in the LiFiDiamond can be took by anyone
Severity: Medium

Proof of Concept:
-Never use msg.value inside a loop.
1) LibSwap.swap use msg.value when swapping native assets.

(bool success, bytes memory res) = _swapData.callTo.call{ value: msg.value }(_swapData.callData);

2) Swapper call LibSwap.swap inside a loop.

for (uint8 i; i < _swapData.length; i++) {
require(
ls.dexWhitelist[_swapData[i].approveTo] == true && ls.dexWhitelist[_swapData[i].callTo] == true,
"Contract call not allowed!"
);

LibSwap.swap(_lifiData.transactionId, _swapData[i]);
}

3) Take GenericSwapFacet as a example
Attacker can call swapTokensGeneric with 1 ether with _swapData.length == 10. This will swap 10 ether to SwapData.callTo.

function swapTokensGeneric(LiFiData memory _lifiData, LibSwap.SwapData[] calldata _swapData) public payable {
uint256 receivingAssetIdBalance = LibAsset.getOwnBalance(_lifiData.receivingAssetId);

// Swap
_executeSwaps(_lifiData, _swapData);

uint256 postSwapBalance = LibAsset.getOwnBalance(_lifiData.receivingAssetId) - receivingAssetIdBalance;

LibAsset.transferAsset(_lifiData.receivingAssetId, payable(msg.sender), postSwapBalance);

Mitigation:
The amount of native assets to be sent should be specified in _swapData. Check that total amount <= msg.value.

#CODE4ARENA #MEDIUM #REPORT #MSGVALUE #LIFINANCE

(code-423n4/2022-03-lifinance-findings)
Source, Code

Number: 7
Problem: Return while loop
DexManagerFacet: batchRemoveDex() removes first dex only
Severity: Medium

Impact:
The function intends to allow the removal of multiple dexes approved for swaps. However, the function will only remove the first DEX because return is used instead of break in the inner for loop.

if (s.dexs[j] == _dexs[i]) {
_removeDex(j);
// should be replaced with break;
return;
}
This error is likely to have gone unnoticed because no event is emitted when a DEX is added or removed.

Mitigation: Replace return with break.
if (s.dexs[j] == _dexs[i]) {
_removeDex(j);
break; (will end the current inner loop)
}
In addition, it is recommended to emit an event whenever a DEX is added or removed.

#CODE4ARENA #MEDIUM #REPORT #LOOP #LIFINANCE

(code-423n4/2022-03-lifinance-findings)
Source, Code

Number: 8
Problem: Loss the msg.value
ERC20 bridging functions do not revert on non-zero msg.value
Severity: Medium

Impact:
Any native funds mistakenly sent along with plain ERC20 bridging calls will be lost. AnyswapFacet, CBridgeFacet, HopFacet and NXTPFacet have this issue.
For instance, swapping function might use native tokens, but the functions whose purpose is bridging solely have no use of native funds, so any mistakenly sent native funds to be frozen on the contract balance.
Placing the severity to be medium as in combination with other issues there is a possibility for user funds to be frozen for an extended period of time (if WithdrawFacet's issue plays out) or even lost (if LibSwap's swap native tokens one also be triggered).
In other words the vulnerability is also a wider attack surface enabler as it can bring in the user funds to the contract balance.
Medium despite the fund loss possibility as the native funds in question here are mistakenly sent only, so the probability is lower compared to direct leakage issues.


#CODE4ARENA #MEDIUM #REPORT #MSGVALUE #LIFINANCE

(code-423n4/2022-03-lifinance-findings)
Source, Code

Number: 9
Problem: Overpaying the msg.value
Caller can lose ETH using the CBridgeFacet
Severity: Medium

Impact: A user wanting to bridge ETH via CBridge could lose some amount of ETH.

Proof of concept:
The function startBridgeTokenViaCBridge checks the amount of ETH transfered with msg.value >= _cBridgeData.amount in case the token address is zero.
If a user accidentally sends more ETH than _cBridgeData.amount, that ETH would be held unaccounted for in the contract and be lost for the user.

Mitigation:
Refactor the check to msg.value == _cBridgeData.amount.

#CODE4ARENA #MEDIUM #REPORT #MSGVALUE #LIFINANCE

(code-423n4/2022-03-lifinance-findings)
Source, Code

Number: 10
Problem: Success even if contract no exist
Failed transfer with low level call won't revert
Severity: Medium

Impact:
swap is used throughout the code via _executeSwaps in Swapper.sol. According to Solidity Docs the call may return true even if it was a failure. This may result in user funds lost because funds were transferred into this contract in preparation for the swap. The swap fails but doesn't revert. There is a way this can happen through GenericSwapFacet.sol due to a missing require that is present in the other facets which is a separate issue but gives this issue more relevance.

Proof of concept:
1. Alice uses Generic swap with 100 DAI
2. Alice's 100 DAI are sent to the Swapper.sol contract
3. The call on swap _swapData.callTo.call{ value: msg.value }(_swapData.callData); fails but returns success due to nonexisting contract
4. postSwapBalance = 0
5. Alice receives nothing in return

Mitigation:
Check for contract existence

#CODE4ARENA #MEDIUM #REPORT #CALL #LIFINANCE

(code-423n4/2022-03-lifinance-findings)
Source, Code

Number: 11
Problem: Use call instead of transfer and send
Use of transfer() may lead to failures
Severity: Medium

Proof of Concept:
src/Facets/WithdrawFacet.sol
31: payable(sendTo).transfer(_amount);

When withdrawing native token, the withdraw is being handled with a payable.transfer() call.
This is unsafe as transfer has hard coded gas budget and can fail.
Whenever the user either fails to implement the payable fallback function or cumulative gas cost of the function sequence invoked on a native token transfer exceeds 2300 gas consumption limit the native tokens sent end up undelivered and the corresponding user funds return functionality will fail each time.

Mitigation:
Use call() instead, without hardcoded gas limits along with checks-effects-interactions pattern or reentrancy guards for reentrancy protection.

#CODE4ARENA #MEDIUM #REPORT #GAS #LIFINANCE

(code-423n4/2022-01-yield-findings)
Source

Number: 13
Problem: Oracle data feed is insufficiently validated.
Severity: Medium

Impact: Price can be stale(out-of-date) and can lead to wrong quoteAmount return value

Proof of concept:
Oracle data feed is insufficiently validated. There is no check for stale price and round completeness.
Price can be stale and can lead to wrong quoteAmount return value

#CODE4ARENA #MEDIUM #REPORT #ORACLE #YIELD_CONVEX

(code-423n4/2022-03-prepo-findings)
Source, Code

Number: 14
Problem: The first depositor can manipulate rewards. First depositor can break minting of shares
Severity: Medium

Impact: The attack vector and impact is the same as TOB-YEARN-003, where users may not receive shares in exchange for their deposits if the total asset amount has been manipulated through a large “donation”.

Proof of Concept:
- Attacker deposits 2 wei (so that it is greater than min fee) to mint 1 share
- Attacker transfers exorbitant amount to _strategyController to greatly inflate the share’s price. Note that the _strategyController deposits its entire balance to the strategy when its deposit() function is called.
- Subsequent depositors instead have to deposit an equivalent sum to avoid minting 0 shares. Otherwise, their deposits accrue to the attacker who holds the only share.

Mitigation:
- Uniswap V2 solved this problem by sending the first 1000 LP tokens to the zero address. The same can be done in this case i.e. when totalSupply() == 0, send the first min liquidity LP tokens to the zero address to enable share dilution.
- Ensure the number of shares to be minted is non-zero: require(_shares != 0, "zero shares minted");
- Create a periphery contract that contains a wrapper function that atomically calls initialize() and deposit()
- Call deposit() once in initialize() to achieve the same effect as the suggestion above.

#CODE4ARENA #MEDIUM #REPORT #SHARES #PREPO

(code-423n4/2022-03-timeswap-findings)
Source, Code

Number: 15
Problem: Underflown variable in borrowGivenDebtETHCollateral function
Severity: Medium

Impact:
- borrowGivenDebtETHCollateral function does never properly call ETH.transfer due to underflow.
- If borrowGivenDebtETHCollateral function is not deprecated, it would cause unexpected behaviors for users.

Proof of Concept:
Here are codes which contain a potential issue.
if (maxCollateral > dueOut.collateral) {
uint256 excess;
unchecked {
excess -= dueOut.collateral;
}
ETH.transfer(payable(msg.sender), excess);
}
excess variable is uint256, and dueOut.collateral variable is uint112 as shown below. Hence, both variables will never be less than 0.

struct Due {
uint112 debt;
uint112 collateral;
uint32 startBlock;
}
uint256 excess is initialized to 0. However, subtracting dueOut.collateral variable which is more than or equal to 0 from excess variable which is 0 will be less than 0. Hence, excess -= dueOut.collateral will be less than 0, and excess will be underflown.

Mitigation:
The code should properly initialize excess variable.
borrowGivenPercentETHCollateral function uses uint256 excess = maxCollateral at similar functionality.
https://github.com/code-423n4/2022-03-timeswap/blob/main/Timeswap/Convenience/contracts/libraries/Borrow.sol#L347
Hence, just initializing excess variable with maxCollateral can be a potential workaround to prevent the underflown.

if (maxCollateral > dueOut.collateral) {
uint256 excess = maxCollateral;
unchecked {
excess -= dueOut.collateral;
}
ETH.transfer(payable(msg.sender), excess);
}

#CODE4ARENA #MEDIUM #REPORT #UNDERFLOW_OVERFLOW #TIMESWAP

(code-423n4/2022-03-timeswap-findings)
Source, Code

Number: 16
Problem: DoS by repay with underflow. The pay() function can still be DOSed
Severity: Medium

Impact:
in the pay() function users repay their debt and in line 364:
it decreases their debt.
lets say a user wants to repay all his debt, he calls the pay() function with his full debt.
an attacker can see it and frontrun to repay a single token for his debt (since it's likely the token uses 18 decimals, a single token is worth almost nothing)
and since your solidity version is above 0.8.0 the line:
due.debt -= assetsIn[i]; will revert due to underflow

The attacker can keep doing it everytime the user is going to pay and since 1 token is baisicly 0$ (18 decimals) the attacker doesn't lose real money
The pay() function however is still DOSable. Having the Convenience contract contain a workaround means the Convenience contract is no longer a convenience but a requirement.
due.debt -= param.assetsIn[i];
A DoS on every user that repay his full debt (or enough that the difference between his total debt to what he pays his negligible)

Mitigation:
if assetsIn[i] is bigger than due.debt set assetsIn[i]=due.debt and due.debt=0

#CODE4ARENA #MEDIUM #REPORT #DOS #TIMESWAP

(code-423n4/2022-03-timeswap-findings)
Source, Code

Number: 17
Problem: NPM Dependency confusion. Unclaimed NPM Package and Scope/Org
Severity: Medium

Impact:
I discovered an npm package and the scope of the package is unclaimed on the NPM website. This will give any User to claim that package and be able to Upload a Malicious Code under that unclaimed package. This results in achieving the Remote code execution on developers/users' machine who depends on the timeswap repository to build it on local env.
##Vulnerable Package Name: @timeswap-labs/timeswap-v1-core

Proof of Concept:
1) Create an Organization called "timeswap-labs".
2) Create a package called "@timeswap-labs/timeswap-v1-core" under "timeswap-labs" Organization.
3) Attacker can able to upload malicious code on unclaimed npm package with a higher version like 99.99.99
4) Now If any user/timeswap developer installs it by npm install package.json. The malicious pkg will be executed.
Till now "The Package is not claimed on NPM Registry, but it's vulnerable to dependency confusion".
You can read more dependency confusion here: https://dhiyaneshgeek.github.io/web/security/2021/09/04/dependency-confusion/

Mitigation:
Claim the Scope name called "timeswap-labs" By Following the above POC Step 1.

#CODE4ARENA #MEDIUM #REPORT #NPM #TIMESWAP