CVE-2022-50483 | net: enetc: avoid buffer leaks on xdp_do_redirect() failure

In the Linux kernel, the following vulnerability has been resolved: net: enetc: avoid buffer leaks on xdp_do_redirect() failure Before enetc_clean_rx_ring_xdp() calls xdp_do_redirect(), each software BD in the RX ring between index orig_i and i can have one of 2 refcount values on its page. We are the owner of the current buffer that is being processed, so the refcount will be at least 1. If the current owner of the buffer at the diametrically opposed index in the RX ring (i.o.w, the other half of this page) has not yet called kfree(), this page's refcount could even be 2. enetc_page_reusable() in enetc_flip_rx_buff() tests for the page refcount against 1, and [ if it's 2 ] does not attempt to reuse it. But if enetc_flip_rx_buff() is put after the xdp_do_redirect() call, the page refcount can have one of 3 values. It can also be 0, if there is no owner of the other page half, and xdp_do_redirect() for this buffer ran so far that it triggered a flush of the devmap/cpumap bulk queue, and the consumers of those bulk queues also freed the buffer, all by the time xdp_do_redirect() returns the execution back to enetc. This is the reason why enetc_flip_rx_buff() is called before xdp_do_redirect(), but there is a big flaw with that reasoning: enetc_flip_rx_buff() will set rx_swbd->page = NULL on both sides of the enetc_page_reusable() branch, and if xdp_do_redirect() returns an error, we call enetc_xdp_free(), which does not deal gracefully with that. In fact, what happens is quite special. The page refcounts start as 1. enetc_flip_rx_buff() figures they're reusable, transfers these rx_swbd->page pointers to a different rx_swbd in enetc_reuse_page(), and bumps the refcount to 2. When xdp_do_redirect() later returns an error, we call the no-op enetc_xdp_free(), but we still haven't lost the reference to that page. A copy of it is still at rx_ring->next_to_alloc, but that has refcount 2 (and there are no concurrent owners of it in flight, to drop the refcount). What really kills the system is when we'll flip the rx_swbd->page the second time around. With an updated refcount of 2, the page will not be reusable and we'll really leak it. Then enetc_new_page() will have to allocate more pages, which will then eventually leak again on further errors from xdp_do_redirect(). The problem, summarized, is that we zeroize rx_swbd->page before we're completely done with it, and this makes it impossible for the error path to do something with it. Since the packet is potentially multi-buffer and therefore the rx_swbd->page is potentially an array, manual passing of the old pointers between enetc_flip_rx_buff() and enetc_xdp_free() is a bit difficult. For the sake of going with a simple solution, we accept the possibility of racing with xdp_do_redirect(), and we move the flip procedure to execute only on the redirect success path. By racing, I mean that the page may be deemed as not reusable by enetc (having a refcount of 0), but there will be no leak in that case, either. Once we accept that, we have something better to do with buffers on XDP_REDIRECT failure. Since we haven't performed half-page flipping yet, we won't, either (and this way, we can avoid enetc_xdp_free() completely, which gives the entire page to the slab allocator). Instead, we'll call enetc_xdp_drop(), which will recycle this half of the buffer back to the RX ring.

公開: 2025-10-04 最終更新: 2026-06-17 Assigner: 416baaa9-dc9f-4396-8d5f-8c081fb06d67 ソース: 416baaa9-dc9f-4396-8d5f-8c081fb06d67

総合評価: CVE-2022-50483 は低リスク(23.8/100)。CVSS 深刻度は中。悪用される可能性が高い(EPSS 0.15%、5 パーセンタイル) 推奨対応: 悪用情報と EPSS の推移を監視し、必要に応じて優先度を見直してください。

リスクは変動します。再評価に基づき、本ページの表示内容を更新しています。

CVE-2022-50483 の EPSS(Exploit Prediction Scoring System)スコア

EPSS は日次で悪用されやすさの相対度合いを推定します。パーセンタイルは採点済み CVE の中での相対位置(高いほど相対的に深刻)を示します。

# 日付 旧 EPSS スコア 新 EPSS スコア Δ(新 − 旧)
1 2026-06-15 0.02% 0.15% +0.13%
2 2025-10-05 0.02%

EPSS の全履歴 (全 2 件)

CVE-2022-50483 の CVSS(Common Vulnerability Scoring System)指標

この CVE の CVSS 指標。

ベーススコア バージョン 深刻度 ベクトル 悪用しやすさ 影響 スコアの出典
5.5 3.1 MEDIUM
CVSS:3.1/AV:L/AC:L/PR:L/UI:N/S:U/C:N/I:N/A:H クリックして展開
攻撃ベクター (AV:L)
対象ホスト上でコードを実行できること、または別ユーザーの誤操作・悪意ある操作が前提になる。
攻撃の複雑さ (AC:L)
攻撃者が条件を満たせば、レース条件や珍しい構成に依存せずに再現しやすい。
必要な権限 (PR:L)
一般ユーザー権限があれば足り、管理者(root 相当)は不要。
ユーザーの関与 (UI:N)
メールのリンクを開く、マクロを有効にするなど、被害者の協力がなくても成立しうる。
スコープ (S:U)
影響は脆弱コンポーネントと同一のセキュリティ権限・信頼境界の内側に収まる。
機密性への影響 (C:N)
機微情報の漏えいは想定しにくい。
完全性への影響 (I:N)
改ざん・なりすましによる信頼毀損は軽微か、想定されない。
可用性への影響 (A:H)
長時間のサービス停止、データ損壊による復旧不能に近い状態など、利用者に著しい不便を与えうる。
1.8 3.6 [email protected]

CVE-2022-50483 の弱点分類(列挙)

CVE-2022-50483 の OS トラッカー

vendor priority summary link
debian unimportant CVE-2022-50483 unimportant priority: Debian including 1 source packages (linux), 5 status rows across 5 suites (bookworm, bullseye, forky, sid, trixie): resolved 5. https://security-tracker.debian.org/tracker/CVE-2022-50483
redhat https://access.redhat.com/security/cve/CVE-2022-50483
suse medium CVE-2022-50483 severity moderate: SUSE including 26 source package names (cluster-md-kmp-default, dlm-kmp-default, …), 182 product×package rows across 38 product lines (SLES-LTSS-TERADATA 15 SP2, SUSE Linux Enterprise High Availability Extension 15 SP7, … (38 product lines)): Known Not Affected 182. https://www.suse.com/security/cve/CVE-2022-50483/
ubuntu medium CVE-2022-50483 medium priority: Ubuntu including 158 source packages (linux, linux-allwinner-5.19, …), 1414 status rows across 9 suites (bionic, focal, jammy, noble, plucky, questing, trusty, upstream, xenial): DNE 1017, ignored 158, not-affected 126, released 112, needs-triage 1. https://ubuntu.com/security/CVE-2022-50483

CVE-2022-50483 の影響を受けるソフトウェア/構成

ベンダー 製品 バージョン 生の CPE
linux linux_kernel >= 5.13, < 5.15.86 cpe:2.3:o:linux:linux_kernel:*:*:*:*:*:*:*:*
linux linux_kernel >= 5.16, < 6.0.16 cpe:2.3:o:linux:linux_kernel:*:*:*:*:*:*:*:*
linux linux_kernel >= 6.1, < 6.1.2 cpe:2.3:o:linux:linux_kernel:*:*:*:*:*:*:*:*

CVE-2022-50483 の参考情報

cvelogic Threat Intelligence