mod_lua.c in the mod_lua module in the Apache HTTP Server 2.3.x and 2.4.x through 2.4.10 does not support an httpd configuration in which the same Lua authorization provider is used with different arguments within different contexts, which allows remote attackers to bypass intended access restrictions in opportunistic circumstances by leveraging multiple Require directives, as demonstrated by a configuration that specifies authorization for one group to access a certain directory, and authorization for a second group to access a second directory.
The product performs an authorization check when an actor attempts to access a resource or perform an action, but it does not correctly perform the check. This allows attackers to bypass intended access restrictions.
Name | Vendor | Start Version | End Version |
---|---|---|---|
Http_server | Apache | 2.4.1 (including) | 2.4.1 (including) |
Http_server | Apache | 2.4.2 (including) | 2.4.2 (including) |
Http_server | Apache | 2.4.3 (including) | 2.4.3 (including) |
Http_server | Apache | 2.4.4 (including) | 2.4.4 (including) |
Http_server | Apache | 2.4.6 (including) | 2.4.6 (including) |
Http_server | Apache | 2.4.7 (including) | 2.4.7 (including) |
Http_server | Apache | 2.4.9 (including) | 2.4.9 (including) |
Http_server | Apache | 2.4.10 (including) | 2.4.10 (including) |
Apache2 | Ubuntu | devel | * |
Apache2 | Ubuntu | upstream | * |
Apache2 | Ubuntu | utopic | * |
Assuming a user with a given identity, authorization is the process of determining whether that user can access a given resource, based on the user’s privileges and any permissions or other access-control specifications that apply to the resource. When access control checks are incorrectly applied, users are able to access data or perform actions that they should not be allowed to perform. This can lead to a wide range of problems, including information exposures, denial of service, and arbitrary code execution.