Bug 2467233 (CVE-2026-43161)

Summary: CVE-2026-43161 kernel: iommu/vt-d: Skip dev-iotlb flush for inaccessible PCIe device without scalable mode
Product: [Other] Security Response Reporter: OSIDB Bzimport <bzimport>
Component: vulnerabilityAssignee: Product Security <prodsec-ir-bot>
Status: NEW --- QA Contact:
Severity: medium Docs Contact:
Priority: medium    
Version: unspecifiedCC: rhel-process-autobot, watson-tool-maintainers
Target Milestone: ---Keywords: Security
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Hardware: All   
OS: Linux   
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A flaw was found in the Linux kernel's Intel IOMMU (Input/Output Memory Management Unit) virtual technology for directed I/O (VT-d) subsystem. When a PCIe (Peripheral Component Interconnect Express) endpoint device, especially when passed through to userspace applications like QEMU or DPDK, unexpectedly loses its connection, the system can experience a hard-lock. This occurs because the IOMMU waits indefinitely for an invalidation request that cannot complete, leading to a Denial of Service (DoS) for the host system.
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Description OSIDB Bzimport 2026-05-06 13:12:12 UTC
In the Linux kernel, the following vulnerability has been resolved:

iommu/vt-d: Skip dev-iotlb flush for inaccessible PCIe device without scalable mode

PCIe endpoints with ATS enabled and passed through to userspace
(e.g., QEMU, DPDK) can hard-lock the host when their link drops,
either by surprise removal or by a link fault.

Commit 4fc82cd907ac ("iommu/vt-d: Don't issue ATS Invalidation
request when device is disconnected") adds pci_dev_is_disconnected()
to devtlb_invalidation_with_pasid() so ATS invalidation is skipped
only when the device is being safely removed, but it applies only
when Intel IOMMU scalable mode is enabled.

With scalable mode disabled or unsupported, a system hard-lock
occurs when a PCIe endpoint's link drops because the Intel IOMMU
waits indefinitely for an ATS invalidation that cannot complete.

Call Trace:
 qi_submit_sync
 qi_flush_dev_iotlb
 __context_flush_dev_iotlb.part.0
 domain_context_clear_one_cb
 pci_for_each_dma_alias
 device_block_translation
 blocking_domain_attach_dev
 iommu_deinit_device
 __iommu_group_remove_device
 iommu_release_device
 iommu_bus_notifier
 blocking_notifier_call_chain
 bus_notify
 device_del
 pci_remove_bus_device
 pci_stop_and_remove_bus_device
 pciehp_unconfigure_device
 pciehp_disable_slot
 pciehp_handle_presence_or_link_change
 pciehp_ist

Commit 81e921fd3216 ("iommu/vt-d: Fix NULL domain on device release")
adds intel_pasid_teardown_sm_context() to intel_iommu_release_device(),
which calls qi_flush_dev_iotlb() and can also hard-lock the system
when a PCIe endpoint's link drops.

Call Trace:
 qi_submit_sync
 qi_flush_dev_iotlb
 __context_flush_dev_iotlb.part.0
 intel_context_flush_no_pasid
 device_pasid_table_teardown
 pci_pasid_table_teardown
 pci_for_each_dma_alias
 intel_pasid_teardown_sm_context
 intel_iommu_release_device
 iommu_deinit_device
 __iommu_group_remove_device
 iommu_release_device
 iommu_bus_notifier
 blocking_notifier_call_chain
 bus_notify
 device_del
 pci_remove_bus_device
 pci_stop_and_remove_bus_device
 pciehp_unconfigure_device
 pciehp_disable_slot
 pciehp_handle_presence_or_link_change
 pciehp_ist

Sometimes the endpoint loses connection without a link-down event
(e.g., due to a link fault); killing the process (virsh destroy)
then hard-locks the host.

Call Trace:
 qi_submit_sync
 qi_flush_dev_iotlb
 __context_flush_dev_iotlb.part.0
 domain_context_clear_one_cb
 pci_for_each_dma_alias
 device_block_translation
 blocking_domain_attach_dev
 __iommu_attach_device
 __iommu_device_set_domain
 __iommu_group_set_domain_internal
 iommu_detach_group
 vfio_iommu_type1_detach_group
 vfio_group_detach_container
 vfio_group_fops_release
 __fput

pci_dev_is_disconnected() only covers safe-removal paths;
pci_device_is_present() tests accessibility by reading
vendor/device IDs and internally calls pci_dev_is_disconnected().
On a ConnectX-5 (8 GT/s, x2) this costs ~70 µs.

Since __context_flush_dev_iotlb() is only called on
{attach,release}_dev paths (not hot), add pci_device_is_present()
there to skip inaccessible devices and avoid the hard-lock.