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CVSS: -EPSS: 0%CPEs: 9EXPL: 0

In the Linux kernel, the following vulnerability has been resolved: vfs: fix race between evice_inodes() and find_inode()&iput() Hi, all Recently I noticed a bug[1] in btrfs, after digged it into and I believe it'a race in vfs. Let's assume there's a inode (ie ino 261) with i_count 1 is called by iput(), and there's a concurrent thread calling generic_shutdown_super(). cpu0: cpu1: iput() // i_count is 1 ->spin_lock(inode) ->dec i_count to 0 ->iput_final() generic_shutdown_super() ->__inode_add_lru() ->evict_inodes() // cause some reason[2] ->if (atomic_read(inode->i_count)) continue; // return before // inode 261 passed the above check // list_lru_add_obj() // and then schedule out ->spin_unlock() // note here: the inode 261 // was still at sb list and hash list, // and I_FREEING|I_WILL_FREE was not been set btrfs_iget() // after some function calls ->find_inode() // found the above inode 261 ->spin_lock(inode) // check I_FREEING|I_WILL_FREE // and passed ->__iget() ->spin_unlock(inode) // schedule back ->spin_lock(inode) // check (I_NEW|I_FREEING|I_WILL_FREE) flags, // passed and set I_FREEING iput() ->spin_unlock(inode) ->spin_lock(inode) ->evict() // dec i_count to 0 ->iput_final() ->spin_unlock() ->evict() Now, we have two threads simultaneously evicting the same inode, which may trigger the BUG(inode->i_state & I_CLEAR) statement both within clear_inode() and iput(). To fix the bug, recheck the inode->i_count after holding i_lock. Because in the most scenarios, the first check is valid, and the overhead of spin_lock() can be reduced. If there is any misunderstanding, please let me know, thanks. [1]: https://lore.kernel.org/linux-btrfs/000000000000eabe1d0619c48986@google.com/ [2]: The reason might be 1. SB_ACTIVE was removed or 2. mapping_shrinkable() return false when I reproduced the bug. • https://git.kernel.org/stable/c/63997e98a3be68d7cec806d22bf9b02b2e1daabb https://git.kernel.org/stable/c/6cc13a80a26e6b48f78c725c01b91987d61563ef https://git.kernel.org/stable/c/489faddb1ae75b0e1a741fe5ca2542a2b5e794a5 https://git.kernel.org/stable/c/47a68c75052a660e4c37de41e321582ec9496195 https://git.kernel.org/stable/c/3721a69403291e2514d13a7c3af50a006ea1153b https://git.kernel.org/stable/c/540fb13120c9eab3ef203f90c00c8e69f37449d1 https://git.kernel.org/stable/c/0eed942bc65de1f93eca7bda51344290f9c573bb https://git.kernel.org/stable/c/0f8a5b6d0dafa4f533ac82e98f8b81207 •

CVSS: -EPSS: 0%CPEs: 7EXPL: 0

In the Linux kernel, the following vulnerability has been resolved: mm: avoid leaving partial pfn mappings around in error case As Jann points out, PFN mappings are special, because unlike normal memory mappings, there is no lifetime information associated with the mapping - it is just a raw mapping of PFNs with no reference counting of a 'struct page'. That's all very much intentional, but it does mean that it's easy to mess up the cleanup in case of errors. Yes, a failed mmap() will always eventually clean up any partial mappings, but without any explicit lifetime in the page table mapping itself, it's very easy to do the error handling in the wrong order. In particular, it's easy to mistakenly free the physical backing store before the page tables are actually cleaned up and (temporarily) have stale dangling PTE entries. To make this situation less error-prone, just make sure that any partial pfn mapping is torn down early, before any other error handling. En el kernel de Linux, se ha resuelto la siguiente vulnerabilidad: mm: evitar dejar asignaciones pfn parciales en caso de error Como señala Jann, las asignaciones PFN son especiales, porque a diferencia de las asignaciones de memoria normales, no hay información de duración asociada con la asignación: es solo una asignación sin procesar de PFN sin recuento de referencias de una 'página de estructura'. Todo eso es muy intencional, pero significa que es fácil arruinar la limpieza en caso de errores. Sí, un mmap() fallido siempre limpiará eventualmente cualquier asignación parcial, pero sin ninguna duración explícita en la asignación de la tabla de páginas en sí, es muy fácil hacer el manejo de errores en el orden incorrecto. • https://git.kernel.org/stable/c/3213fdcab961026203dd587a4533600c70b3336b https://git.kernel.org/stable/c/35770ca6180caa24a2b258c99a87bd437a1ee10f https://git.kernel.org/stable/c/5b2c8b34f6d76bfbd1dd4936eb8a0fbfb9af3959 https://git.kernel.org/stable/c/65d0db500d7c07f0f76fc24a4d837791c4862cd2 https://git.kernel.org/stable/c/a95a24fcaee1b892e47d5e6dcc403f713874ee80 https://git.kernel.org/stable/c/954fd4c81f22c4b6ba65379a81fd252971bf4ef3 https://git.kernel.org/stable/c/79a61cc3fc0466ad2b7b89618a6157785f0293b3 https://project-zero.issues.chromium.org/issues/366053091 •

CVSS: -EPSS: 0%CPEs: 5EXPL: 0

In the Linux kernel, the following vulnerability has been resolved: wifi: iwlwifi: mvm: pause TCM when the firmware is stopped Not doing so will make us send a host command to the transport while the firmware is not alive, which will trigger a WARNING. bad state = 0 WARNING: CPU: 2 PID: 17434 at drivers/net/wireless/intel/iwlwifi/iwl-trans.c:115 iwl_trans_send_cmd+0x1cb/0x1e0 [iwlwifi] RIP: 0010:iwl_trans_send_cmd+0x1cb/0x1e0 [iwlwifi] Call Trace: <TASK> iwl_mvm_send_cmd+0x40/0xc0 [iwlmvm] iwl_mvm_config_scan+0x198/0x260 [iwlmvm] iwl_mvm_recalc_tcm+0x730/0x11d0 [iwlmvm] iwl_mvm_tcm_work+0x1d/0x30 [iwlmvm] process_one_work+0x29e/0x640 worker_thread+0x2df/0x690 ? rescuer_thread+0x540/0x540 kthread+0x192/0x1e0 ? set_kthread_struct+0x90/0x90 ret_from_fork+0x22/0x30 • https://git.kernel.org/stable/c/a15df5f37fa3a8b7a8ec7a339d1e897bc524e28f https://git.kernel.org/stable/c/5948a191906b54e10f02f6b7a7670243a39f99f4 https://git.kernel.org/stable/c/2c61b561baf92a2860c76c2302a62169e22c21cc https://git.kernel.org/stable/c/55086c97a55d781b04a2667401c75ffde190135c https://git.kernel.org/stable/c/0668ebc8c2282ca1e7eb96092a347baefffb5fe7 •

CVSS: -EPSS: 0%CPEs: 8EXPL: 0

In the Linux kernel, the following vulnerability has been resolved: wifi: iwlwifi: mvm: don't wait for tx queues if firmware is dead There is a WARNING in iwl_trans_wait_tx_queues_empty() (that was recently converted from just a message), that can be hit if we wait for TX queues to become empty after firmware died. Clearly, we can't expect anything from the firmware after it's declared dead. Don't call iwl_trans_wait_tx_queues_empty() in this case. While it could be a good idea to stop the flow earlier, the flush functions do some maintenance work that is not related to the firmware, so keep that part of the code running even when the firmware is not running. [edit commit message] • https://git.kernel.org/stable/c/ad2fcc2daa203a6ad491f00e9ae3b7867e8fe0f3 https://git.kernel.org/stable/c/16c1e5d5228f26f120e12e6ca55c59c3a5e6dece https://git.kernel.org/stable/c/de46b1d24f5f752b3bd8b46673c2ea4239661244 https://git.kernel.org/stable/c/1afed66cb271b3e65fe9df1c9fba2bf4b1f55669 https://git.kernel.org/stable/c/1b0cd832c9607f41f84053b818e0b7908510a3b9 https://git.kernel.org/stable/c/4d0a900ec470d392476c428875dbf053f8a0ae5e https://git.kernel.org/stable/c/7188b7a72320367554b76d8f298417b070b05dd3 https://git.kernel.org/stable/c/3a84454f5204718ca5b4ad2c1f0bf2031 •

CVSS: -EPSS: 0%CPEs: 8EXPL: 0

In the Linux kernel, the following vulnerability has been resolved: ocfs2: add bounds checking to ocfs2_xattr_find_entry() Add a paranoia check to make sure it doesn't stray beyond valid memory region containing ocfs2 xattr entries when scanning for a match. It will prevent out-of-bound access in case of crafted images. • https://git.kernel.org/stable/c/b49a786beb11ff740cb9e0c20b999c2a0e1729c2 https://git.kernel.org/stable/c/60c0d36189bad58b1a8e69af8781d90009559ea1 https://git.kernel.org/stable/c/34759b7e4493d7337cbc414c132cef378c492a2c https://git.kernel.org/stable/c/5bbe51eaf01a5dd6fb3f0dea81791e5dbc6dc6dd https://git.kernel.org/stable/c/9b32539590a8e6400ac2f6e7cf9cbb8e08711a2f https://git.kernel.org/stable/c/1f6e167d6753fe3ea493cdc7f7de8d03147a4d39 https://git.kernel.org/stable/c/8e7bef408261746c160853fc27df3139659f5f77 https://git.kernel.org/stable/c/9e3041fecdc8f78a5900c3aa51d3d756e •