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ca83c61cb3
- Remove tristate choice support from Kconfig - Stop using the PROVIDE() directive in the linker script - Reduce the number of links for the combination of CONFIG_DEBUG_INFO_BTF and CONFIG_KALLSYMS - Enable the warning for symbol reference to .exit.* sections by default - Fix warnings in RPM package builds - Improve scripts/make_fit.py to generate a FIT image with separate base DTB and overlays - Improve choice value calculation in Kconfig - Fix conditional prompt behavior in choice in Kconfig - Remove support for the uncommon EMAIL environment variable in Debian package builds - Remove support for the uncommon "name <email>" form for the DEBEMAIL environment variable - Raise the minimum supported GNU Make version to 4.0 - Remove stale code for the absolute kallsyms - Move header files commonly used for host programs to scripts/include/ - Introduce the pacman-pkg target to generate a pacman package used in Arch Linux - Clean up Kconfig -----BEGIN PGP SIGNATURE----- iQJJBAABCgAzFiEEbmPs18K1szRHjPqEPYsBB53g2wYFAmagBLUVHG1hc2FoaXJv eUBrZXJuZWwub3JnAAoJED2LAQed4NsGmoUQAJ8pnURs0g+Rcyk6bdY/qtXBYkS+ nXpIK1ssFgRRgAQdeszYtvBqLFzb0wRCSie87G1AriD/JkVVTjCCY1For1y+vs0u a7HfxitHhZpPyZW/T+WMQ3LViNccpkx+DFAcoRH8xOY/XPEJKVUby332jOIXMuyg +NKIELQJVsLhcDofTUGb5VfIQektw219n5c4jKjXdNk4ZtE24xCRM5X528ZebwWJ RZhMvJ968PyIH1IRXvNt6dsKBxoGIwPP8IO6yW9hzHaNsBqt7MGSChSel7r1VKpk iwCNApJvEiVBe5wvTSVOVro7/8p/AZ70CQAqnMJV+dNnRqtGqW7NvL6XAjZRJgJJ Uxe5NSrXgQd3FtqfcbXLetBgp9zGVt328nHm1HXHR5rFsvoOiTvO7hHPbhA+OoWJ fs+jHzEXdAMRgsNrczPWU5Svq6MgGe4v8HBf0m8N1Uy65t/O+z9ti2QAw7kIFlbu /VSFNjw4CHmNxGhnH0khCMsy85FwVIt9Ux+2d6IEc0gP8S1Qa1HgHGAoVI4U51eS 9dxEPVJNPOugaIVHheuS3wimEO6wzaJcQHn4IXaasMA7P6Yo4G/jiGoy4cb9qPTM Hb+GaOltUy7vDoG4D2LSym8zR8rdKwbIf/5psdZrq/IWVKq5p+p7KWs3aOykSoM7 o6Hb532Ioalhm8je =BYu7 -----END PGP SIGNATURE----- Merge tag 'kbuild-v6.11' of git://git.kernel.org/pub/scm/linux/kernel/git/masahiroy/linux-kbuild Pull Kbuild updates from Masahiro Yamada: - Remove tristate choice support from Kconfig - Stop using the PROVIDE() directive in the linker script - Reduce the number of links for the combination of CONFIG_KALLSYMS and CONFIG_DEBUG_INFO_BTF - Enable the warning for symbol reference to .exit.* sections by default - Fix warnings in RPM package builds - Improve scripts/make_fit.py to generate a FIT image with separate base DTB and overlays - Improve choice value calculation in Kconfig - Fix conditional prompt behavior in choice in Kconfig - Remove support for the uncommon EMAIL environment variable in Debian package builds - Remove support for the uncommon "name <email>" form for the DEBEMAIL environment variable - Raise the minimum supported GNU Make version to 4.0 - Remove stale code for the absolute kallsyms - Move header files commonly used for host programs to scripts/include/ - Introduce the pacman-pkg target to generate a pacman package used in Arch Linux - Clean up Kconfig * tag 'kbuild-v6.11' of git://git.kernel.org/pub/scm/linux/kernel/git/masahiroy/linux-kbuild: (65 commits) kbuild: doc: gcc to CC change kallsyms: change sym_entry::percpu_absolute to bool type kallsyms: unify seq and start_pos fields of struct sym_entry kallsyms: add more original symbol type/name in comment lines kallsyms: use \t instead of a tab in printf() kallsyms: avoid repeated calculation of array size for markers kbuild: add script and target to generate pacman package modpost: use generic macros for hash table implementation kbuild: move some helper headers from scripts/kconfig/ to scripts/include/ Makefile: add comment to discourage tools/* addition for kernel builds kbuild: clean up scripts/remove-stale-files kconfig: recursive checks drop file/lineno kbuild: rpm-pkg: introduce a simple changelog section for kernel.spec kallsyms: get rid of code for absolute kallsyms kbuild: Create INSTALL_PATH directory if it does not exist kbuild: Abort make on install failures kconfig: remove 'e1' and 'e2' macros from expression deduplication kconfig: remove SYMBOL_CHOICEVAL flag kconfig: add const qualifiers to several function arguments kconfig: call expr_eliminate_yn() at least once in expr_eliminate_dups() ... |
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.. | ||
acl.c | ||
acl.h | ||
background.c | ||
build.c | ||
compr_lzo.c | ||
compr_rtime.c | ||
compr_rubin.c | ||
compr_zlib.c | ||
compr.c | ||
compr.h | ||
debug.c | ||
debug.h | ||
dir.c | ||
erase.c | ||
file.c | ||
fs.c | ||
gc.c | ||
ioctl.c | ||
jffs2_fs_i.h | ||
jffs2_fs_sb.h | ||
Kconfig | ||
LICENCE | ||
Makefile | ||
malloc.c | ||
nodelist.c | ||
nodelist.h | ||
nodemgmt.c | ||
os-linux.h | ||
read.c | ||
readinode.c | ||
README.Locking | ||
scan.c | ||
security.c | ||
summary.c | ||
summary.h | ||
super.c | ||
symlink.c | ||
wbuf.c | ||
write.c | ||
writev.c | ||
xattr_trusted.c | ||
xattr_user.c | ||
xattr.c | ||
xattr.h |
JFFS2 LOCKING DOCUMENTATION --------------------------- This document attempts to describe the existing locking rules for JFFS2. It is not expected to remain perfectly up to date, but ought to be fairly close. alloc_sem --------- The alloc_sem is a per-filesystem mutex, used primarily to ensure contiguous allocation of space on the medium. It is automatically obtained during space allocations (jffs2_reserve_space()) and freed upon write completion (jffs2_complete_reservation()). Note that the garbage collector will obtain this right at the beginning of jffs2_garbage_collect_pass() and release it at the end, thereby preventing any other write activity on the file system during a garbage collect pass. When writing new nodes, the alloc_sem must be held until the new nodes have been properly linked into the data structures for the inode to which they belong. This is for the benefit of NAND flash - adding new nodes to an inode may obsolete old ones, and by holding the alloc_sem until this happens we ensure that any data in the write-buffer at the time this happens are part of the new node, not just something that was written afterwards. Hence, we can ensure the newly-obsoleted nodes don't actually get erased until the write-buffer has been flushed to the medium. With the introduction of NAND flash support and the write-buffer, the alloc_sem is also used to protect the wbuf-related members of the jffs2_sb_info structure. Atomically reading the wbuf_len member to see if the wbuf is currently holding any data is permitted, though. Ordering constraints: See f->sem. File Mutex f->sem --------------------- This is the JFFS2-internal equivalent of the inode mutex i->i_sem. It protects the contents of the jffs2_inode_info private inode data, including the linked list of node fragments (but see the notes below on erase_completion_lock), etc. The reason that the i_sem itself isn't used for this purpose is to avoid deadlocks with garbage collection -- the VFS will lock the i_sem before calling a function which may need to allocate space. The allocation may trigger garbage-collection, which may need to move a node belonging to the inode which was locked in the first place by the VFS. If the garbage collection code were to attempt to lock the i_sem of the inode from which it's garbage-collecting a physical node, this lead to deadlock, unless we played games with unlocking the i_sem before calling the space allocation functions. Instead of playing such games, we just have an extra internal mutex, which is obtained by the garbage collection code and also by the normal file system code _after_ allocation of space. Ordering constraints: 1. Never attempt to allocate space or lock alloc_sem with any f->sem held. 2. Never attempt to lock two file mutexes in one thread. No ordering rules have been made for doing so. 3. Never lock a page cache page with f->sem held. erase_completion_lock spinlock ------------------------------ This is used to serialise access to the eraseblock lists, to the per-eraseblock lists of physical jffs2_raw_node_ref structures, and (NB) the per-inode list of physical nodes. The latter is a special case - see below. As the MTD API no longer permits erase-completion callback functions to be called from bottom-half (timer) context (on the basis that nobody ever actually implemented such a thing), it's now sufficient to use a simple spin_lock() rather than spin_lock_bh(). Note that the per-inode list of physical nodes (f->nodes) is a special case. Any changes to _valid_ nodes (i.e. ->flash_offset & 1 == 0) in the list are protected by the file mutex f->sem. But the erase code may remove _obsolete_ nodes from the list while holding only the erase_completion_lock. So you can walk the list only while holding the erase_completion_lock, and can drop the lock temporarily mid-walk as long as the pointer you're holding is to a _valid_ node, not an obsolete one. The erase_completion_lock is also used to protect the c->gc_task pointer when the garbage collection thread exits. The code to kill the GC thread locks it, sends the signal, then unlocks it - while the GC thread itself locks it, zeroes c->gc_task, then unlocks on the exit path. inocache_lock spinlock ---------------------- This spinlock protects the hashed list (c->inocache_list) of the in-core jffs2_inode_cache objects (each inode in JFFS2 has the correspondent jffs2_inode_cache object). So, the inocache_lock has to be locked while walking the c->inocache_list hash buckets. This spinlock also covers allocation of new inode numbers, which is currently just '++->highest_ino++', but might one day get more complicated if we need to deal with wrapping after 4 milliard inode numbers are used. Note, the f->sem guarantees that the correspondent jffs2_inode_cache will not be removed. So, it is allowed to access it without locking the inocache_lock spinlock. Ordering constraints: If both erase_completion_lock and inocache_lock are needed, the c->erase_completion has to be acquired first. erase_free_sem -------------- This mutex is only used by the erase code which frees obsolete node references and the jffs2_garbage_collect_deletion_dirent() function. The latter function on NAND flash must read _obsolete_ nodes to determine whether the 'deletion dirent' under consideration can be discarded or whether it is still required to show that an inode has been unlinked. Because reading from the flash may sleep, the erase_completion_lock cannot be held, so an alternative, more heavyweight lock was required to prevent the erase code from freeing the jffs2_raw_node_ref structures in question while the garbage collection code is looking at them. Suggestions for alternative solutions to this problem would be welcomed. wbuf_sem -------- This read/write semaphore protects against concurrent access to the write-behind buffer ('wbuf') used for flash chips where we must write in blocks. It protects both the contents of the wbuf and the metadata which indicates which flash region (if any) is currently covered by the buffer. Ordering constraints: Lock wbuf_sem last, after the alloc_sem or and f->sem. c->xattr_sem ------------ This read/write semaphore protects against concurrent access to the xattr related objects which include stuff in superblock and ic->xref. In read-only path, write-semaphore is too much exclusion. It's enough by read-semaphore. But you must hold write-semaphore when updating, creating or deleting any xattr related object. Once xattr_sem released, there would be no assurance for the existence of those objects. Thus, a series of processes is often required to retry, when updating such a object is necessary under holding read semaphore. For example, do_jffs2_getxattr() holds read-semaphore to scan xref and xdatum at first. But it retries this process with holding write-semaphore after release read-semaphore, if it's necessary to load name/value pair from medium. Ordering constraints: Lock xattr_sem last, after the alloc_sem.