Bug 2367570 (CVE-2025-37959) - CVE-2025-37959 kernel: bpf: Scrub packet on bpf_redirect_peer
Summary: CVE-2025-37959 kernel: bpf: Scrub packet on bpf_redirect_peer
Keywords:
Status: NEW
Alias: CVE-2025-37959
Product: Security Response
Classification: Other
Component: vulnerability
Version: unspecified
Hardware: All
OS: Linux
medium
medium
Target Milestone: ---
Assignee: Product Security DevOps Team
QA Contact:
URL:
Whiteboard:
Depends On:
Blocks:
TreeView+ depends on / blocked
 
Reported: 2025-05-20 17:01 UTC by OSIDB Bzimport
Modified: 2025-05-21 01:50 UTC (History)
4 users (show)

Fixed In Version:
Clone Of:
Environment:
Last Closed:
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Description OSIDB Bzimport 2025-05-20 17:01:20 UTC 
In the Linux kernel, the following vulnerability has been resolved:

bpf: Scrub packet on bpf_redirect_peer

When bpf_redirect_peer is used to redirect packets to a device in
another network namespace, the skb isn't scrubbed. That can lead skb
information from one namespace to be "misused" in another namespace.

As one example, this is causing Cilium to drop traffic when using
bpf_redirect_peer to redirect packets that just went through IPsec
decryption to a container namespace. The following pwru trace shows (1)
the packet path from the host's XFRM layer to the container's XFRM
layer where it's dropped and (2) the number of active skb extensions at
each function.

    NETNS       MARK  IFACE  TUPLE                                FUNC
    4026533547  d00   eth0   10.244.3.124:35473->10.244.2.158:53  xfrm_rcv_cb
                             .active_extensions = (__u8)2,
    4026533547  d00   eth0   10.244.3.124:35473->10.244.2.158:53  xfrm4_rcv_cb
                             .active_extensions = (__u8)2,
    4026533547  d00   eth0   10.244.3.124:35473->10.244.2.158:53  gro_cells_receive
                             .active_extensions = (__u8)2,
    [...]
    4026533547  0     eth0   10.244.3.124:35473->10.244.2.158:53  skb_do_redirect
                             .active_extensions = (__u8)2,
    4026534999  0     eth0   10.244.3.124:35473->10.244.2.158:53  ip_rcv
                             .active_extensions = (__u8)2,
    4026534999  0     eth0   10.244.3.124:35473->10.244.2.158:53  ip_rcv_core
                             .active_extensions = (__u8)2,
    [...]
    4026534999  0     eth0   10.244.3.124:35473->10.244.2.158:53  udp_queue_rcv_one_skb
                             .active_extensions = (__u8)2,
    4026534999  0     eth0   10.244.3.124:35473->10.244.2.158:53  __xfrm_policy_check
                             .active_extensions = (__u8)2,
    4026534999  0     eth0   10.244.3.124:35473->10.244.2.158:53  __xfrm_decode_session
                             .active_extensions = (__u8)2,
    4026534999  0     eth0   10.244.3.124:35473->10.244.2.158:53  security_xfrm_decode_session
                             .active_extensions = (__u8)2,
    4026534999  0     eth0   10.244.3.124:35473->10.244.2.158:53  kfree_skb_reason(SKB_DROP_REASON_XFRM_POLICY)
                             .active_extensions = (__u8)2,

In this case, there are no XFRM policies in the container's network
namespace so the drop is unexpected. When we decrypt the IPsec packet,
the XFRM state used for decryption is set in the skb extensions. This
information is preserved across the netns switch. When we reach the
XFRM policy check in the container's netns, __xfrm_policy_check drops
the packet with LINUX_MIB_XFRMINNOPOLS because a (container-side) XFRM
policy can't be found that matches the (host-side) XFRM state used for
decryption.

This patch fixes this by scrubbing the packet when using
bpf_redirect_peer, as is done on typical netns switches via veth
devices except skb->mark and skb->tstamp are not zeroed.
Comment 1 Jon Moroney 2025-05-21 01:44:04 UTC 
Upstream advisory:
https://lore.kernel.org/linux-cve-announce/2025052004-CVE-2025-37959-1d15@gregkh/T
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