Any address can front-run `checkTwice()` and force Santa’s second-pass approval to revert
Root: checkList() lacks access control, so any address can overwrite the first-pass status before Santa executes checkTwice(). Impact: an attacker can front-run the second approval step and force Santa’s transaction to revert, preventing completion of the approval flow.
Description
-
The intended behavior is that Santa performs a first review with
checkList()and then finalizes the result withcheckTwice()using the same status. If both checks match, the recipient becomes eligible to claim a present later. -
The issue is that the first-pass state is not protected. Because
checkList()can be called by anyone, an attacker observing Santa’s pendingcheckTwice(person, status)transaction can submit a transaction first and overwrites_theListCheckedOnce[person]with a different value. When Santa’s transaction is then executed, the equality check fails andcheckTwice()reverts.
This creates a transaction-ordering vulnerability: the approval flow depends on mutable public state that can be changed by arbitrary third parties immediately before the second check executes.
Risk
Likelihood:
-
Any address can modify the first-pass status because
checkList()is fully unrestricted. -
The attack succeeds whenever Santa’s second-pass transaction is visible before execution and can be reordered behind an attacker transaction.
Impact:
-
Santa can be prevented from successfully completing the second approval step for targeted users.
-
The approval process becomes vulnerable to griefing through transaction ordering, disrupting the intended review workflow.
Proof of Concept
Add to storage: address attacker = makeAddr("attacker");
Recommended Mitigation
Restrict checkList() so that only Santa can write the first-pass status.
As an additional hardening measure, the approval flow could be redesigned so the second check does not depend on mutable public state that arbitrary users can rewrite between transactions.
Lead Judging Commences
[H-01] Anyone is able to call `checkList` function in SantasList contract and prevent any address from becoming `NICE` or `EXTRA_NICE` and collect present.
## Description With the current design of the protocol, anyone is able to call `checkList` function in SantasList contract, while documentation says only Santa should be able to call it. This can be considered as an access control vulnerability, because not only santa is allowed to make the first check. ## Vulnerability Details An attacker could simply call the external `checkList` function, passing as parameter the address of someone else and the enum Status `NAUGHTY`(or `NOT_CHECKED_TWICE`, which should actually be `UNKNOWN` given documentation). By doing that, Santa will not be able to execute `checkTwice` function correctly for `NICE` and `EXTRA_NICE` people. Indeed, if Santa first checked a user and assigned the status `NICE` or `EXTRA_NICE`, anyone is able to call `checkList` function again, and by doing so modify the status. This could result in Santa unable to execute the second check. Moreover, any malicious actor could check the mempool and front run Santa just before calling `checkTwice` function to check users. This would result in a major denial of service issue. ## Impact The impact of this vulnerability is HIGH as it results in a broken mechanism of the check list system. Any user could be declared `NAUGHTY` for the first check at any time, preventing present collecting by users although Santa considered the user as `NICE` or `EXTRA_NICE`. Santa could still call `checkList` function again to reassigned the status to `NICE` or `EXTRA_NICE` before calling `checkTwice` function, but any malicious actor could front run the call to `checkTwice` function. In this scenario, it would be impossible for Santa to actually double check a `NICE` or `EXTRA_NICE` user. ## Proof of Concept Just copy paste this test in SantasListTest contract : ``` function testDosAttack() external { vm.startPrank(makeAddr("attacker")); // any user can checList any address and assigned status to naughty // an attacker could front run Santa before the second check santasList.checkList(makeAddr("user"), SantasList.Status.NAUGHTY); vm.stopPrank(); vm.startPrank(santa); vm.expectRevert(); // Santa is unable to check twice the user santasList.checkTwice(makeAddr("user"), SantasList.Status.NICE); vm.stopPrank(); } ``` ## Recommendations I suggest to add the `onlySanta` modifier to `checkList` function. This will ensure the first check can only be done by Santa, and prevent DOS attack on the contract. With this modifier, specification will be respected : "In this contract Only Santa to take the following actions: - checkList: A function that changes an address to a new Status of NICE, EXTRA_NICE, NAUGHTY, or UNKNOWN on the original s_theListCheckedOnce list." The following code will resolve this access control issue, simply by adding `onlySanta` modifier: ``` function checkList(address person, Status status) external onlySanta { s_theListCheckedOnce[person] = status; emit CheckedOnce(person, status); } ``` No malicious actor is now able to front run Santa before `checkTwice` function call. The following tests shows that doing the first check for another user is impossible after adding `onlySanta` modifier: ``` function testDosResolved() external { vm.startPrank(makeAddr("attacker")); // checklist function call will revert if a user tries to execute the first check for another user vm.expectRevert(SantasList.SantasList__NotSanta.selector); santasList.checkList(makeAddr("user"), SantasList.Status.NAUGHTY); vm.stopPrank(); } ```
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