CVE-2024-58057 Affecting kernel-tools-libs package, versions *
Do your applications use this vulnerable package?
In a few clicks we can analyze your entire application and see what components are vulnerable in your application, and suggest you quick fixes.
Test your applications- Snyk IDSNYK-RHEL8-KERNELTOOLSLIBS-9361932
- published7 Mar 2025
- disclosed6 Mar 2025
Introduced: 6 Mar 2025
NewCVE-2024-58057 (opens in a new tab)How to fix?
There is no fixed version for RHEL:8 kernel-tools-libs.
NVD Description
Note: Versions mentioned in the description apply only to the upstream kernel-tools-libs package and not the kernel-tools-libs package as distributed by RHEL.
See How to fix? for RHEL:8 relevant fixed versions and status.
In the Linux kernel, the following vulnerability has been resolved:
idpf: convert workqueues to unbound
When a workqueue is created with WQ_UNBOUND, its work items are
served by special worker-pools, whose host workers are not bound to
any specific CPU. In the default configuration (i.e. when
queue_delayed_work and friends do not specify which CPU to run the
work item on), WQ_UNBOUND allows the work item to be executed on any
CPU in the same node of the CPU it was enqueued on. While this
solution potentially sacrifices locality, it avoids contention with
other processes that might dominate the CPU time of the processor the
work item was scheduled on.
This is not just a theoretical problem: in a particular scenario misconfigured process was hogging most of the time from CPU0, leaving less than 0.5% of its CPU time to the kworker. The IDPF workqueues that were using the kworker on CPU0 suffered large completion delays as a result, causing performance degradation, timeouts and eventual system crash.
I have also run a manual test to gauge the performance improvement. The test consists of an antagonist process (
./stress --cpu 2) consuming as much of CPU 0 as possible. This process is run undertaskset 01to bind it to CPU0, and its priority is changed withchrt -pQ 9900 10000 ${pid}andrenice -n -20 ${pid}after start.Then, the IDPF driver is forced to prefer CPU0 by editing all calls to
queue_delayed_work,mod_delayed_work, etc... to use CPU 0.Finally,
ktracesfor the workqueue events are collected.Without the current patch, the antagonist process can force arbitrary delays between
workqueue_queue_workandworkqueue_execute_start, that in my tests were as high as30ms. With the current patch applied, the workqueue can be migrated to another unloaded CPU in the same node, and, keeping everything else equal, the maximum delay I could see was6us.