| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Matthew Sakai | 803 | 99.50% | 1 | 25.00% |
| Mike Snitzer | 4 | 0.50% | 3 | 75.00% |
| Total | 807 | 4 |
/* SPDX-License-Identifier: GPL-2.0-only */ /* * Copyright 2023 Red Hat */ #ifndef VIO_H #define VIO_H #include <linux/bio.h> #include <linux/blkdev.h> #include <linux/compiler.h> #include <linux/kernel.h> #include <linux/list.h> #include "completion.h" #include "constants.h" #include "types.h" #include "vdo.h" enum { MAX_BLOCKS_PER_VIO = (BIO_MAX_VECS << PAGE_SHIFT) / VDO_BLOCK_SIZE, }; struct pooled_vio { /* The underlying vio */ struct vio vio; /* The list entry for chaining pooled vios together */ struct list_head list_entry; /* The context set by the pool */ void *context; /* The list entry used by the pool */ struct list_head pool_entry; }; /** * as_vio() - Convert a generic vdo_completion to a vio. * @completion: The completion to convert. * * Return: The completion as a vio. */ static inline struct vio *as_vio(struct vdo_completion *completion) { vdo_assert_completion_type(completion, VIO_COMPLETION); return container_of(completion, struct vio, completion); } /** * get_vio_bio_zone_thread_id() - Get the thread id of the bio zone in which a vio should submit * its I/O. * @vio: The vio. * * Return: The id of the bio zone thread the vio should use. */ static inline thread_id_t __must_check get_vio_bio_zone_thread_id(struct vio *vio) { return vio->completion.vdo->thread_config.bio_threads[vio->bio_zone]; } physical_block_number_t __must_check pbn_from_vio_bio(struct bio *bio); /** * assert_vio_in_bio_zone() - Check that a vio is running on the correct thread for its bio zone. * @vio: The vio to check. */ static inline void assert_vio_in_bio_zone(struct vio *vio) { thread_id_t expected = get_vio_bio_zone_thread_id(vio); thread_id_t thread_id = vdo_get_callback_thread_id(); VDO_ASSERT_LOG_ONLY((expected == thread_id), "vio I/O for physical block %llu on thread %u, should be on bio zone thread %u", (unsigned long long) pbn_from_vio_bio(vio->bio), thread_id, expected); } int vdo_create_bio(struct bio **bio_ptr); void vdo_free_bio(struct bio *bio); int allocate_vio_components(struct vdo *vdo, enum vio_type vio_type, enum vio_priority priority, void *parent, unsigned int block_count, char *data, struct vio *vio); int __must_check create_multi_block_metadata_vio(struct vdo *vdo, enum vio_type vio_type, enum vio_priority priority, void *parent, unsigned int block_count, char *data, struct vio **vio_ptr); static inline int __must_check create_metadata_vio(struct vdo *vdo, enum vio_type vio_type, enum vio_priority priority, void *parent, char *data, struct vio **vio_ptr) { return create_multi_block_metadata_vio(vdo, vio_type, priority, parent, 1, data, vio_ptr); } void free_vio_components(struct vio *vio); void free_vio(struct vio *vio); /** * initialize_vio() - Initialize a vio. * @vio: The vio to initialize. * @bio: The bio this vio should use for its I/O. * @block_count: The size of this vio in vdo blocks. * @vio_type: The vio type. * @priority: The relative priority of the vio. * @vdo: The vdo for this vio. */ static inline void initialize_vio(struct vio *vio, struct bio *bio, unsigned int block_count, enum vio_type vio_type, enum vio_priority priority, struct vdo *vdo) { /* data_vio's may not span multiple blocks */ BUG_ON((vio_type == VIO_TYPE_DATA) && (block_count != 1)); vio->bio = bio; vio->block_count = block_count; vio->type = vio_type; vio->priority = priority; vdo_initialize_completion(&vio->completion, vdo, VIO_COMPLETION); } void vdo_set_bio_properties(struct bio *bio, struct vio *vio, bio_end_io_t callback, blk_opf_t bi_opf, physical_block_number_t pbn); int vio_reset_bio(struct vio *vio, char *data, bio_end_io_t callback, blk_opf_t bi_opf, physical_block_number_t pbn); void update_vio_error_stats(struct vio *vio, const char *format, ...) __printf(2, 3); /** * is_data_vio() - Check whether a vio is servicing an external data request. * @vio: The vio to check. */ static inline bool is_data_vio(struct vio *vio) { return (vio->type == VIO_TYPE_DATA); } /** * get_metadata_priority() - Convert a vio's priority to a work item priority. * @vio: The vio. * * Return: The priority with which to submit the vio's bio. */ static inline enum vdo_completion_priority get_metadata_priority(struct vio *vio) { return ((vio->priority == VIO_PRIORITY_HIGH) ? BIO_Q_HIGH_PRIORITY : BIO_Q_METADATA_PRIORITY); } /** * continue_vio() - Enqueue a vio to run its next callback. * @vio: The vio to continue. * * Return: The result of the current operation. */ static inline void continue_vio(struct vio *vio, int result) { if (unlikely(result != VDO_SUCCESS)) vdo_set_completion_result(&vio->completion, result); vdo_enqueue_completion(&vio->completion, VDO_WORK_Q_DEFAULT_PRIORITY); } void vdo_count_bios(struct atomic_bio_stats *bio_stats, struct bio *bio); void vdo_count_completed_bios(struct bio *bio); /** * continue_vio_after_io() - Continue a vio now that its I/O has returned. */ static inline void continue_vio_after_io(struct vio *vio, vdo_action_fn callback, thread_id_t thread) { vdo_count_completed_bios(vio->bio); vdo_set_completion_callback(&vio->completion, callback, thread); continue_vio(vio, blk_status_to_errno(vio->bio->bi_status)); } void vio_record_metadata_io_error(struct vio *vio); /* A vio_pool is a collection of preallocated vios used to write arbitrary metadata blocks. */ static inline struct pooled_vio *vio_as_pooled_vio(struct vio *vio) { return container_of(vio, struct pooled_vio, vio); } struct vio_pool; int __must_check make_vio_pool(struct vdo *vdo, size_t pool_size, thread_id_t thread_id, enum vio_type vio_type, enum vio_priority priority, void *context, struct vio_pool **pool_ptr); void free_vio_pool(struct vio_pool *pool); bool __must_check is_vio_pool_busy(struct vio_pool *pool); void acquire_vio_from_pool(struct vio_pool *pool, struct vdo_waiter *waiter); void return_vio_to_pool(struct vio_pool *pool, struct pooled_vio *vio); #endif /* VIO_H */
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