| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Darrick J. Wong | 973 | 97.20% | 63 | 95.45% |
| Eric Sandeen | 23 | 2.30% | 1 | 1.52% |
| Geert Uytterhoeven | 4 | 0.40% | 1 | 1.52% |
| David Chinner | 1 | 0.10% | 1 | 1.52% |
| Total | 1001 | 66 |
// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (C) 2017-2023 Oracle. All Rights Reserved. * Author: Darrick J. Wong <djwong@kernel.org> */ #ifndef __XFS_SCRUB_SCRUB_H__ #define __XFS_SCRUB_SCRUB_H__ struct xfs_scrub; struct xchk_relax { unsigned long next_resched; unsigned int resched_nr; bool interruptible; }; /* Yield to the scheduler at most 10x per second. */ #define XCHK_RELAX_NEXT (jiffies + (HZ / 10)) #define INIT_XCHK_RELAX \ (struct xchk_relax){ \ .next_resched = XCHK_RELAX_NEXT, \ .resched_nr = 0, \ .interruptible = true, \ } /* * Relax during a scrub operation and exit if there's a fatal signal pending. * * If preemption is disabled, we need to yield to the scheduler every now and * then so that we don't run afoul of the soft lockup watchdog or RCU stall * detector. cond_resched calls are somewhat expensive (~5ns) so we want to * ratelimit this to 10x per second. Amortize the cost of the other checks by * only doing it once every 100 calls. */ static inline int xchk_maybe_relax(struct xchk_relax *widget) { /* Amortize the cost of scheduling and checking signals. */ if (likely(++widget->resched_nr < 100)) return 0; widget->resched_nr = 0; if (unlikely(widget->next_resched <= jiffies)) { cond_resched(); widget->next_resched = XCHK_RELAX_NEXT; } if (widget->interruptible && fatal_signal_pending(current)) return -EINTR; return 0; } /* * Standard flags for allocating memory within scrub. NOFS context is * configured by the process allocation scope. Scrub and repair must be able * to back out gracefully if there isn't enough memory. Force-cast to avoid * complaints from static checkers. */ #define XCHK_GFP_FLAGS ((__force gfp_t)(GFP_KERNEL | __GFP_NOWARN | \ __GFP_RETRY_MAYFAIL)) /* * For opening files by handle for fsck operations, we don't trust the inumber * or the allocation state; therefore, perform an untrusted lookup. We don't * want these inodes to pollute the cache, so mark them for immediate removal. */ #define XCHK_IGET_FLAGS (XFS_IGET_UNTRUSTED | XFS_IGET_DONTCACHE) /* Type info and names for the scrub types. */ enum xchk_type { ST_NONE = 1, /* disabled */ ST_PERAG, /* per-AG metadata */ ST_FS, /* per-FS metadata */ ST_INODE, /* per-inode metadata */ }; struct xchk_meta_ops { /* Acquire whatever resources are needed for the operation. */ int (*setup)(struct xfs_scrub *sc); /* Examine metadata for errors. */ int (*scrub)(struct xfs_scrub *); /* Repair or optimize the metadata. */ int (*repair)(struct xfs_scrub *); /* * Re-scrub the metadata we repaired, in case there's extra work that * we need to do to check our repair work. If this is NULL, we'll use * the ->scrub function pointer, assuming that the regular scrub is * sufficient. */ int (*repair_eval)(struct xfs_scrub *sc); /* Decide if we even have this piece of metadata. */ bool (*has)(struct xfs_mount *); /* type describing required/allowed inputs */ enum xchk_type type; }; /* Buffer pointers and btree cursors for an entire AG. */ struct xchk_ag { struct xfs_perag *pag; /* AG btree roots */ struct xfs_buf *agf_bp; struct xfs_buf *agi_bp; /* AG btrees */ struct xfs_btree_cur *bno_cur; struct xfs_btree_cur *cnt_cur; struct xfs_btree_cur *ino_cur; struct xfs_btree_cur *fino_cur; struct xfs_btree_cur *rmap_cur; struct xfs_btree_cur *refc_cur; }; struct xfs_scrub { /* General scrub state. */ struct xfs_mount *mp; struct xfs_scrub_metadata *sm; const struct xchk_meta_ops *ops; struct xfs_trans *tp; /* File that scrub was called with. */ struct file *file; /* * File that is undergoing the scrub operation. This can differ from * the file that scrub was called with if we're checking file-based fs * metadata (e.g. rt bitmaps) or if we're doing a scrub-by-handle for * something that can't be opened directly (e.g. symlinks). */ struct xfs_inode *ip; /* Kernel memory buffer used by scrubbers; freed at teardown. */ void *buf; /* * Clean up resources owned by whatever is in the buffer. Cleanup can * be deferred with this hook as a means for scrub functions to pass * data to repair functions. This function must not free the buffer * itself. */ void (*buf_cleanup)(void *buf); /* xfile used by the scrubbers; freed at teardown. */ struct xfile *xfile; /* buffer target for in-memory btrees; also freed at teardown. */ struct xfs_buftarg *xmbtp; /* Lock flags for @ip. */ uint ilock_flags; /* The orphanage, for stashing files that have lost their parent. */ uint orphanage_ilock_flags; struct xfs_inode *orphanage; /* A temporary file on this filesystem, for staging new metadata. */ struct xfs_inode *tempip; uint temp_ilock_flags; /* See the XCHK/XREP state flags below. */ unsigned int flags; /* * The XFS_SICK_* flags that correspond to the metadata being scrubbed * or repaired. We will use this mask to update the in-core fs health * status with whatever we find. */ unsigned int sick_mask; /* next time we want to cond_resched() */ struct xchk_relax relax; /* State tracking for single-AG operations. */ struct xchk_ag sa; }; /* XCHK state flags grow up from zero, XREP state flags grown down from 2^31 */ #define XCHK_TRY_HARDER (1U << 0) /* can't get resources, try again */ #define XCHK_HAVE_FREEZE_PROT (1U << 1) /* do we have freeze protection? */ #define XCHK_FSGATES_DRAIN (1U << 2) /* defer ops draining enabled */ #define XCHK_NEED_DRAIN (1U << 3) /* scrub needs to drain defer ops */ #define XCHK_FSGATES_QUOTA (1U << 4) /* quota live update enabled */ #define XCHK_FSGATES_DIRENTS (1U << 5) /* directory live update enabled */ #define XCHK_FSGATES_RMAP (1U << 6) /* rmapbt live update enabled */ #define XREP_RESET_PERAG_RESV (1U << 30) /* must reset AG space reservation */ #define XREP_ALREADY_FIXED (1U << 31) /* checking our repair work */ /* * The XCHK_FSGATES* flags reflect functionality in the main filesystem that * are only enabled for this particular online fsck. When not in use, the * features are gated off via dynamic code patching, which is why the state * must be enabled during scrub setup and can only be torn down afterwards. */ #define XCHK_FSGATES_ALL (XCHK_FSGATES_DRAIN | \ XCHK_FSGATES_QUOTA | \ XCHK_FSGATES_DIRENTS | \ XCHK_FSGATES_RMAP) struct xfs_scrub_subord { struct xfs_scrub sc; struct xfs_scrub *parent_sc; unsigned int old_smtype; unsigned int old_smflags; }; struct xfs_scrub_subord *xchk_scrub_create_subord(struct xfs_scrub *sc, unsigned int subtype); void xchk_scrub_free_subord(struct xfs_scrub_subord *sub); /* * We /could/ terminate a scrub/repair operation early. If we're not * in a good place to continue (fatal signal, etc.) then bail out. * Note that we're careful not to make any judgements about *error. */ static inline bool xchk_should_terminate( struct xfs_scrub *sc, int *error) { if (xchk_maybe_relax(&sc->relax)) { if (*error == 0) *error = -EINTR; return true; } return false; } /* Metadata scrubbers */ int xchk_tester(struct xfs_scrub *sc); int xchk_superblock(struct xfs_scrub *sc); int xchk_agf(struct xfs_scrub *sc); int xchk_agfl(struct xfs_scrub *sc); int xchk_agi(struct xfs_scrub *sc); int xchk_allocbt(struct xfs_scrub *sc); int xchk_iallocbt(struct xfs_scrub *sc); int xchk_rmapbt(struct xfs_scrub *sc); int xchk_refcountbt(struct xfs_scrub *sc); int xchk_inode(struct xfs_scrub *sc); int xchk_bmap_data(struct xfs_scrub *sc); int xchk_bmap_attr(struct xfs_scrub *sc); int xchk_bmap_cow(struct xfs_scrub *sc); int xchk_directory(struct xfs_scrub *sc); int xchk_xattr(struct xfs_scrub *sc); int xchk_symlink(struct xfs_scrub *sc); int xchk_parent(struct xfs_scrub *sc); int xchk_dirtree(struct xfs_scrub *sc); #ifdef CONFIG_XFS_RT int xchk_rtbitmap(struct xfs_scrub *sc); int xchk_rtsummary(struct xfs_scrub *sc); #else static inline int xchk_rtbitmap(struct xfs_scrub *sc) { return -ENOENT; } static inline int xchk_rtsummary(struct xfs_scrub *sc) { return -ENOENT; } #endif #ifdef CONFIG_XFS_QUOTA int xchk_quota(struct xfs_scrub *sc); int xchk_quotacheck(struct xfs_scrub *sc); #else static inline int xchk_quota(struct xfs_scrub *sc) { return -ENOENT; } static inline int xchk_quotacheck(struct xfs_scrub *sc) { return -ENOENT; } #endif int xchk_fscounters(struct xfs_scrub *sc); int xchk_nlinks(struct xfs_scrub *sc); /* cross-referencing helpers */ void xchk_xref_is_used_space(struct xfs_scrub *sc, xfs_agblock_t agbno, xfs_extlen_t len); void xchk_xref_is_not_inode_chunk(struct xfs_scrub *sc, xfs_agblock_t agbno, xfs_extlen_t len); void xchk_xref_is_inode_chunk(struct xfs_scrub *sc, xfs_agblock_t agbno, xfs_extlen_t len); void xchk_xref_is_only_owned_by(struct xfs_scrub *sc, xfs_agblock_t agbno, xfs_extlen_t len, const struct xfs_owner_info *oinfo); void xchk_xref_is_not_owned_by(struct xfs_scrub *sc, xfs_agblock_t agbno, xfs_extlen_t len, const struct xfs_owner_info *oinfo); void xchk_xref_has_no_owner(struct xfs_scrub *sc, xfs_agblock_t agbno, xfs_extlen_t len); void xchk_xref_is_cow_staging(struct xfs_scrub *sc, xfs_agblock_t bno, xfs_extlen_t len); void xchk_xref_is_not_shared(struct xfs_scrub *sc, xfs_agblock_t bno, xfs_extlen_t len); void xchk_xref_is_not_cow_staging(struct xfs_scrub *sc, xfs_agblock_t bno, xfs_extlen_t len); #ifdef CONFIG_XFS_RT void xchk_xref_is_used_rt_space(struct xfs_scrub *sc, xfs_rtblock_t rtbno, xfs_extlen_t len); #else # define xchk_xref_is_used_rt_space(sc, rtbno, len) do { } while (0) #endif #endif /* __XFS_SCRUB_SCRUB_H__ */
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