CVE-2026-31519— Linux kernel 安全漏洞
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I. CVE-2026-31519の基本情報
脆弱性情報
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脆弱性タイトル
btrfs: set BTRFS_ROOT_ORPHAN_CLEANUP during subvol create
ソース: NVD (National Vulnerability Database)
脆弱性説明
In the Linux kernel, the following vulnerability has been resolved: btrfs: set BTRFS_ROOT_ORPHAN_CLEANUP during subvol create We have recently observed a number of subvolumes with broken dentries. ls-ing the parent dir looks like: drwxrwxrwt 1 root root 16 Jan 23 16:49 . drwxr-xr-x 1 root root 24 Jan 23 16:48 .. d????????? ? ? ? ? ? broken_subvol and similarly stat-ing the file fails. In this state, deleting the subvol fails with ENOENT, but attempting to create a new file or subvol over it errors out with EEXIST and even aborts the fs. Which leaves us a bit stuck. dmesg contains a single notable error message reading: "could not do orphan cleanup -2" 2 is ENOENT and the error comes from the failure handling path of btrfs_orphan_cleanup(), with the stack leading back up to btrfs_lookup(). btrfs_lookup btrfs_lookup_dentry btrfs_orphan_cleanup // prints that message and returns -ENOENT After some detailed inspection of the internal state, it became clear that: - there are no orphan items for the subvol - the subvol is otherwise healthy looking, it is not half-deleted or anything, there is no drop progress, etc. - the subvol was created a while ago and does the meaningful first btrfs_orphan_cleanup() call that sets BTRFS_ROOT_ORPHAN_CLEANUP much later. - after btrfs_orphan_cleanup() fails, btrfs_lookup_dentry() returns -ENOENT, which results in a negative dentry for the subvolume via d_splice_alias(NULL, dentry), leading to the observed behavior. The bug can be mitigated by dropping the dentry cache, at which point we can successfully delete the subvolume if we want. i.e., btrfs_lookup() btrfs_lookup_dentry() if (!sb_rdonly(inode->vfs_inode)->vfs_inode) btrfs_orphan_cleanup(sub_root) test_and_set_bit(BTRFS_ROOT_ORPHAN_CLEANUP) btrfs_search_slot() // finds orphan item for inode N ... prints "could not do orphan cleanup -2" if (inode == ERR_PTR(-ENOENT)) inode = NULL; return d_splice_alias(NULL, dentry) // NEGATIVE DENTRY for valid subvolume btrfs_orphan_cleanup() does test_and_set_bit(BTRFS_ROOT_ORPHAN_CLEANUP) on the root when it runs, so it cannot run more than once on a given root, so something else must run concurrently. However, the obvious routes to deleting an orphan when nlinks goes to 0 should not be able to run without first doing a lookup into the subvolume, which should run btrfs_orphan_cleanup() and set the bit. The final important observation is that create_subvol() calls d_instantiate_new() but does not set BTRFS_ROOT_ORPHAN_CLEANUP, so if the dentry cache gets dropped, the next lookup into the subvolume will make a real call into btrfs_orphan_cleanup() for the first time. This opens up the possibility of concurrently deleting the inode/orphan items but most typical evict() paths will be holding a reference on the parent dentry (child dentry holds parent->d_lockref.count via dget in d_alloc(), released in __dentry_kill()) and prevent the parent from being removed from the dentry cache. The one exception is delayed iputs. Ordered extent creation calls igrab() on the inode. If the file is unlinked and closed while those refs are held, iput() in __dentry_kill() decrements i_count but does not trigger eviction (i_count > 0). The child dentry is freed and the subvol dentry's d_lockref.count drops to 0, making it evictable while the inode is still alive. Since there are two races (the race between writeback and unlink and the race between lookup and delayed iputs), and there are too many moving parts, the following three diagrams show the complete picture. (Only the second and third are races) Phase 1: Create Subvol in dentry cache without BTRFS_ROOT_ORPHAN_CLEANUP set btrfs_mksubvol() lookup_one_len() __lookup_slow() d_alloc_parallel() __d_alloc() // d_lockref.count = 1 create_subvol(dentry) // doesn't touch the bit.. d_instantiate_new(dentry, inode) // dentry in cache with d_lockref.c ---truncated---
ソース: NVD (National Vulnerability Database)
CVSS情報
N/A
ソース: NVD (National Vulnerability Database)
脆弱性タイプ
N/A
ソース: NVD (National Vulnerability Database)
脆弱性タイトル
Linux kernel 安全漏洞
ソース: CNNVD (China National Vulnerability Database)
脆弱性説明
Linux kernel是美国Linux基金会的开源操作系统Linux所使用的内核。 Linux kernel存在安全漏洞,该漏洞源于创建子卷时未设置BTRFS_ROOT_ORPHAN_CLEANUP,可能导致孤儿清理失败和损坏的目录项。
ソース: CNNVD (China National Vulnerability Database)
CVSS情報
N/A
ソース: CNNVD (China National Vulnerability Database)
脆弱性タイプ
N/A
ソース: CNNVD (China National Vulnerability Database)
影響を受ける製品
II. CVE-2026-31519の公開POC
| # | POC説明 | ソースリンク | Shenlongリンク |
|---|
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Same Patch Batch · Linux · 2026-04-22 · 100 CVEs total
| CVE-2026-31463 | 9.8 CRITICAL | iomap: fix invalid folio access when i_blkbits differs from I/O granularity |
| CVE-2026-31444 | 9.8 CRITICAL | ksmbd: fix use-after-free and NULL deref in smb_grant_oplock() |
| CVE-2026-31501 | 9.8 CRITICAL | net: ti: icssg-prueth: fix use-after-free of CPPI descriptor in RX path |
| CVE-2026-31436 | 9.8 CRITICAL | dmaengine: idxd: fix possible wrong descriptor completion in llist_abort_desc() |
| CVE-2026-31478 | 9.8 CRITICAL | ksmbd: replace hardcoded hdr2_len with offsetof() in smb2_calc_max_out_buf_len() |
| CVE-2026-31448 | 9.4 CRITICAL | ext4: avoid infinite loops caused by residual data |
| CVE-2026-31450 | 8.8 HIGH | ext4: publish jinode after initialization |
| CVE-2026-31432 | 8.8 HIGH | ksmbd: fix OOB write in QUERY_INFO for compound requests |
| CVE-2026-31433 | 8.8 HIGH | ksmbd: fix potencial OOB in get_file_all_info() for compound requests |
| CVE-2026-31435 | 8.8 HIGH | netfs: Fix read abandonment during retry |
| CVE-2026-31476 | 8.2 HIGH | ksmbd: do not expire session on binding failure |
| CVE-2026-31464 | 8.1 HIGH | scsi: ibmvfc: Fix OOB access in ibmvfc_discover_targets_done() |
| CVE-2026-31513 | 8.1 HIGH | Bluetooth: L2CAP: Fix stack-out-of-bounds read in l2cap_ecred_conn_req |
| CVE-2026-31446 | 7.8 HIGH | ext4: fix use-after-free in update_super_work when racing with umount |
| CVE-2026-31449 | 7.8 HIGH | ext4: validate p_idx bounds in ext4_ext_correct_indexes |
| CVE-2026-31502 | 7.8 HIGH | team: fix header_ops type confusion with non-Ethernet ports |
| CVE-2026-31431 | 7.8 HIGH | crypto: algif_aead - Revert to operating out-of-place |
| CVE-2026-31488 | 7.8 HIGH | drm/amd/display: Do not skip unrelated mode changes in DSC validation |
| CVE-2026-31490 | 7.8 HIGH | drm/xe/pf: Fix use-after-free in migration restore |
| CVE-2026-31454 | 7.8 HIGH | xfs: save ailp before dropping the AIL lock in push callbacks |
Showing 20 of 100 CVEs. View all on vendor page →
IV. 関連脆弱性
同じ製品: Linux
- CVE-2026-43500
rxrpc: Also unshare DATA/RESPONSE packets when paged frags a - CVE-2026-43475
scsi: storvsc: Fix scheduling while atomic on PREEMPT_RT - CVE-2026-43474
fs: init flags_valid before calling vfs_fileattr_get - CVE-2026-43473
scsi: mpi3mr: Add NULL checks when resetting request and rep - CVE-2026-43472
unshare: fix unshare_fs() handling
同じベンダー: Linux
- CVE-2026-43500
rxrpc: Also unshare DATA/RESPONSE packets when paged frags a - CVE-2026-43475
scsi: storvsc: Fix scheduling while atomic on PREEMPT_RT - CVE-2026-43474
fs: init flags_valid before calling vfs_fileattr_get - CVE-2026-43473
scsi: mpi3mr: Add NULL checks when resetting request and rep - CVE-2026-43472
unshare: fix unshare_fs() handling
V. CVE-2026-31519へのコメント
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