From: Dave Chinner <dchinner@xxxxxxxxxx> Phase 6 accesses inode chunk records mostly in an isolated manner. However, when it finds a corruption in a directory or there are multiple hardlinks to an inode, there can be concurrent access to the inode chunk record to update state. Hence the inode record itself needs a mutex. This protects all state changes within the inode chunk record, as well as inode link counts and chunk references. That allows us to process multiple chunks at once, providing concurrency within an AG as well as across AGs. The inode chunk tree itself is not modified in the directory scanning and rebuilding part of phase 6 which we are making concurrent, hence we do not need to worry about locking for AVL tree lookups to find the inode chunk records themselves. Therefore internal locking is all we need here. Signed-off-by: Dave Chinner <dchinner@xxxxxxxxxx> --- repair/incore.h | 23 +++++++++++++++++++++++ repair/incore_ino.c | 15 +++++++++++++++ 2 files changed, 38 insertions(+) diff --git a/repair/incore.h b/repair/incore.h index 977e5dd04336..d64315fd2585 100644 --- a/repair/incore.h +++ b/repair/incore.h @@ -281,6 +281,7 @@ typedef struct ino_tree_node { parent_list_t *plist; /* phases 2-5 */ } ino_un; uint8_t *ftypes; /* phases 3,6 */ + pthread_mutex_t lock; } ino_tree_node_t; #define INOS_PER_IREC (sizeof(uint64_t) * NBBY) @@ -411,7 +412,9 @@ next_free_ino_rec(ino_tree_node_t *ino_rec) */ static inline void add_inode_refchecked(struct ino_tree_node *irec, int offset) { + pthread_mutex_lock(&irec->lock); irec->ino_un.ex_data->ino_processed |= IREC_MASK(offset); + pthread_mutex_unlock(&irec->lock); } static inline int is_inode_refchecked(struct ino_tree_node *irec, int offset) @@ -437,12 +440,16 @@ static inline int is_inode_confirmed(struct ino_tree_node *irec, int offset) */ static inline void set_inode_isadir(struct ino_tree_node *irec, int offset) { + pthread_mutex_lock(&irec->lock); irec->ino_isa_dir |= IREC_MASK(offset); + pthread_mutex_unlock(&irec->lock); } static inline void clear_inode_isadir(struct ino_tree_node *irec, int offset) { + pthread_mutex_lock(&irec->lock); irec->ino_isa_dir &= ~IREC_MASK(offset); + pthread_mutex_unlock(&irec->lock); } static inline int inode_isadir(struct ino_tree_node *irec, int offset) @@ -455,15 +462,19 @@ static inline int inode_isadir(struct ino_tree_node *irec, int offset) */ static inline void set_inode_free(struct ino_tree_node *irec, int offset) { + pthread_mutex_lock(&irec->lock); set_inode_confirmed(irec, offset); irec->ir_free |= XFS_INOBT_MASK(offset); + pthread_mutex_unlock(&irec->lock); } static inline void set_inode_used(struct ino_tree_node *irec, int offset) { + pthread_mutex_lock(&irec->lock); set_inode_confirmed(irec, offset); irec->ir_free &= ~XFS_INOBT_MASK(offset); + pthread_mutex_unlock(&irec->lock); } static inline int is_inode_free(struct ino_tree_node *irec, int offset) @@ -476,7 +487,9 @@ static inline int is_inode_free(struct ino_tree_node *irec, int offset) */ static inline void set_inode_sparse(struct ino_tree_node *irec, int offset) { + pthread_mutex_lock(&irec->lock); irec->ir_sparse |= XFS_INOBT_MASK(offset); + pthread_mutex_unlock(&irec->lock); } static inline bool is_inode_sparse(struct ino_tree_node *irec, int offset) @@ -489,12 +502,16 @@ static inline bool is_inode_sparse(struct ino_tree_node *irec, int offset) */ static inline void set_inode_was_rl(struct ino_tree_node *irec, int offset) { + pthread_mutex_lock(&irec->lock); irec->ino_was_rl |= IREC_MASK(offset); + pthread_mutex_unlock(&irec->lock); } static inline void clear_inode_was_rl(struct ino_tree_node *irec, int offset) { + pthread_mutex_lock(&irec->lock); irec->ino_was_rl &= ~IREC_MASK(offset); + pthread_mutex_unlock(&irec->lock); } static inline int inode_was_rl(struct ino_tree_node *irec, int offset) @@ -507,12 +524,16 @@ static inline int inode_was_rl(struct ino_tree_node *irec, int offset) */ static inline void set_inode_is_rl(struct ino_tree_node *irec, int offset) { + pthread_mutex_lock(&irec->lock); irec->ino_is_rl |= IREC_MASK(offset); + pthread_mutex_unlock(&irec->lock); } static inline void clear_inode_is_rl(struct ino_tree_node *irec, int offset) { + pthread_mutex_lock(&irec->lock); irec->ino_is_rl &= ~IREC_MASK(offset); + pthread_mutex_unlock(&irec->lock); } static inline int inode_is_rl(struct ino_tree_node *irec, int offset) @@ -545,7 +566,9 @@ static inline int is_inode_reached(struct ino_tree_node *irec, int offset) static inline void add_inode_reached(struct ino_tree_node *irec, int offset) { add_inode_ref(irec, offset); + pthread_mutex_lock(&irec->lock); irec->ino_un.ex_data->ino_reached |= IREC_MASK(offset); + pthread_mutex_unlock(&irec->lock); } /* diff --git a/repair/incore_ino.c b/repair/incore_ino.c index 82956ae93005..299e4f949e5e 100644 --- a/repair/incore_ino.c +++ b/repair/incore_ino.c @@ -91,6 +91,7 @@ void add_inode_ref(struct ino_tree_node *irec, int ino_offset) { ASSERT(irec->ino_un.ex_data != NULL); + pthread_mutex_lock(&irec->lock); switch (irec->nlink_size) { case sizeof(uint8_t): if (irec->ino_un.ex_data->counted_nlinks.un8[ino_offset] < 0xff) { @@ -112,6 +113,7 @@ void add_inode_ref(struct ino_tree_node *irec, int ino_offset) default: ASSERT(0); } + pthread_mutex_unlock(&irec->lock); } void drop_inode_ref(struct ino_tree_node *irec, int ino_offset) @@ -120,6 +122,7 @@ void drop_inode_ref(struct ino_tree_node *irec, int ino_offset) ASSERT(irec->ino_un.ex_data != NULL); + pthread_mutex_lock(&irec->lock); switch (irec->nlink_size) { case sizeof(uint8_t): ASSERT(irec->ino_un.ex_data->counted_nlinks.un8[ino_offset] > 0); @@ -139,6 +142,7 @@ void drop_inode_ref(struct ino_tree_node *irec, int ino_offset) if (refs == 0) irec->ino_un.ex_data->ino_reached &= ~IREC_MASK(ino_offset); + pthread_mutex_unlock(&irec->lock); } uint32_t num_inode_references(struct ino_tree_node *irec, int ino_offset) @@ -161,6 +165,7 @@ uint32_t num_inode_references(struct ino_tree_node *irec, int ino_offset) void set_inode_disk_nlinks(struct ino_tree_node *irec, int ino_offset, uint32_t nlinks) { + pthread_mutex_lock(&irec->lock); switch (irec->nlink_size) { case sizeof(uint8_t): if (nlinks < 0xff) { @@ -182,6 +187,7 @@ void set_inode_disk_nlinks(struct ino_tree_node *irec, int ino_offset, default: ASSERT(0); } + pthread_mutex_unlock(&irec->lock); } uint32_t get_inode_disk_nlinks(struct ino_tree_node *irec, int ino_offset) @@ -253,6 +259,7 @@ alloc_ino_node( irec->nlink_size = sizeof(uint8_t); irec->disk_nlinks.un8 = alloc_nlink_array(irec->nlink_size); irec->ftypes = alloc_ftypes_array(mp); + pthread_mutex_init(&irec->lock, NULL); return irec; } @@ -294,6 +301,7 @@ free_ino_tree_node( } free(irec->ftypes); + pthread_mutex_destroy(&irec->lock); free(irec); } @@ -600,6 +608,7 @@ set_inode_parent( uint64_t bitmask; parent_entry_t *tmp; + pthread_mutex_lock(&irec->lock); if (full_ino_ex_data) ptbl = irec->ino_un.ex_data->parents; else @@ -625,6 +634,7 @@ set_inode_parent( #endif ptbl->pentries[0] = parent; + pthread_mutex_unlock(&irec->lock); return; } @@ -642,6 +652,7 @@ set_inode_parent( #endif ptbl->pentries[target] = parent; + pthread_mutex_unlock(&irec->lock); return; } @@ -682,6 +693,7 @@ set_inode_parent( #endif ptbl->pentries[target] = parent; ptbl->pmask |= (1ULL << offset); + pthread_mutex_unlock(&irec->lock); } xfs_ino_t @@ -692,6 +704,7 @@ get_inode_parent(ino_tree_node_t *irec, int offset) int i; int target; + pthread_mutex_lock(&irec->lock); if (full_ino_ex_data) ptbl = irec->ino_un.ex_data->parents; else @@ -709,9 +722,11 @@ get_inode_parent(ino_tree_node_t *irec, int offset) #ifdef DEBUG ASSERT(target < ptbl->cnt); #endif + pthread_mutex_unlock(&irec->lock); return(ptbl->pentries[target]); } + pthread_mutex_unlock(&irec->lock); return(0LL); } -- 2.30.1