HOMEVULNERABILITIESCVE-2026-23450
NONE

CVE-2026-23450

Published: April 3, 2026· Updated: Apr 7, 2026

EPSS:0.02%probability of exploitation in 30 daysPercentile:6.6th

Official Description

In the Linux kernel, the following vulnerability has been resolved:

net/smc: fix NULL dereference and UAF in smc_tcp_syn_recv_sock()

Syzkaller reported a panic in smc_tcp_syn_recv_sock() [1].

smc_tcp_syn_recv_sock() is called in the TCP receive path

(softirq) via icsk_af_ops->syn_recv_sock on the clcsock (TCP

listening socket). It reads sk_user_data to get the smc_sock

pointer. However, when the SMC listen socket is being closed

concurrently, smc_close_active() sets clcsock->sk_user_data

to NULL under sk_callback_lock, and then the smc_sock itself

can be freed via sock_put() in smc_release().

This leads to two issues:

1) NULL pointer dereference: sk_user_data is NULL when

accessed.

2) Use-after-free: sk_user_data is read as non-NULL, but the

smc_sock is freed before its fields (e.g., queued_smc_hs,

ori_af_ops) are accessed.

The race window looks like this (the syzkaller crash [1]

triggers via the SYN cookie path: tcp_get_cookie_sock() ->

smc_tcp_syn_recv_sock(), but the normal tcp_check_req() path

has the same race):

CPU A (softirq) CPU B (process ctx)

tcp_v4_rcv()

TCP_NEW_SYN_RECV:

sk = req->rsk_listener

sock_hold(sk)

/* No lock on listener */

smc_close_active():

write_lock_bh(cb_lock)

sk_user_data = NULL

write_unlock_bh(cb_lock)

...

smc_clcsock_release()

sock_put(smc->sk) x2

-> smc_sock freed!

tcp_check_req()

smc_tcp_syn_recv_sock():

smc = user_data(sk)

-> NULL or dangling

smc->queued_smc_hs

-> crash!

Note that the clcsock and smc_sock are two independent objects

with separate refcounts. TCP stack holds a reference on the

clcsock, which keeps it alive, but this does NOT prevent the

smc_sock from being freed.

Fix this by using RCU and refcount_inc_not_zero() to safely

access smc_sock. Since smc_tcp_syn_recv_sock() is called in

the TCP three-way handshake path, taking read_lock_bh on

sk_callback_lock is too heavy and would not survive a SYN

flood attack. Using rcu_read_lock() is much more lightweight.

- Set SOCK_RCU_FREE on the SMC listen socket so that

smc_sock freeing is deferred until after the RCU grace

period. This guarantees the memory is still valid when

accessed inside rcu_read_lock().

- Use rcu_read_lock() to protect reading sk_user_data.

- Use refcount_inc_not_zero(&smc->sk.sk_refcnt) to pin the

smc_sock. If the refcount has already reached zero (close

path completed), it returns false and we bail out safely.

Note: smc_hs_congested() has a similar lockless read of

sk_user_data without rcu_read_lock(), but it only checks for

NULL and accesses the global smc_hs_wq, never dereferencing

any smc_sock field, so it is not affected.

Reproducer was verified with mdelay injection and smc_run,

the issue no longer occurs with this patch applied.

[1] https://syzkaller.appspot.com/bug?extid=827ae2bfb3a3529333e9

NVD Source

Technical Analysis

CVE-2026-23450 requires local access, meaning attackers must already have a foothold on the target system.

Exploitation requires some privileges, which limits the exposure to scenarios where an attacker has already gained initial access.

Affected Vendors & Products

Mentioned vendors (from description):
Linux
CPE data not yet available in NVD for this CVE.

Exploit & PoC Resources

NO KNOWN EXPLOITNo public exploit confirmed at this time
External links open in a new tab. Always verify in a controlled environment before use.

All References (6)

Quick Facts

CVE IDCVE-2026-23450
SeverityNONE
CISA KEVNo
EPSS (30d)0.02%
PublishedApr 3, 2026

Recommended Actions

  • Apply vendor patches immediately
  • Monitor CVE-2026-23450 in threat intel feeds
  • Review IDS/IPS signatures for exploitation attempts
Data sourced from NVD (NIST), CISA KEV, and EPSS (FIRST). Analysis generated by CTIWATCH.COM. CVE data is provided under the NVD usage policy.