Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Matthew Sakai | 2267 | 99.13% | 1 | 20.00% |
Mike Snitzer | 20 | 0.87% | 4 | 80.00% |
Total | 2287 | 5 |
/* SPDX-License-Identifier: GPL-2.0-only */ /* * Copyright 2023 Red Hat */ #ifndef DATA_VIO_H #define DATA_VIO_H #include <linux/atomic.h> #include <linux/bio.h> #include <linux/list.h> #include "permassert.h" #include "indexer.h" #include "block-map.h" #include "completion.h" #include "constants.h" #include "dedupe.h" #include "encodings.h" #include "logical-zone.h" #include "physical-zone.h" #include "types.h" #include "vdo.h" #include "vio.h" #include "wait-queue.h" /* Codes for describing the last asynchronous operation performed on a vio. */ enum async_operation_number { MIN_VIO_ASYNC_OPERATION_NUMBER, VIO_ASYNC_OP_LAUNCH = MIN_VIO_ASYNC_OPERATION_NUMBER, VIO_ASYNC_OP_ACKNOWLEDGE_WRITE, VIO_ASYNC_OP_ACQUIRE_VDO_HASH_LOCK, VIO_ASYNC_OP_ATTEMPT_LOGICAL_BLOCK_LOCK, VIO_ASYNC_OP_LOCK_DUPLICATE_PBN, VIO_ASYNC_OP_CHECK_FOR_DUPLICATION, VIO_ASYNC_OP_CLEANUP, VIO_ASYNC_OP_COMPRESS_DATA_VIO, VIO_ASYNC_OP_FIND_BLOCK_MAP_SLOT, VIO_ASYNC_OP_GET_MAPPED_BLOCK_FOR_READ, VIO_ASYNC_OP_GET_MAPPED_BLOCK_FOR_WRITE, VIO_ASYNC_OP_HASH_DATA_VIO, VIO_ASYNC_OP_JOURNAL_REMAPPING, VIO_ASYNC_OP_ATTEMPT_PACKING, VIO_ASYNC_OP_PUT_MAPPED_BLOCK, VIO_ASYNC_OP_READ_DATA_VIO, VIO_ASYNC_OP_UPDATE_DEDUPE_INDEX, VIO_ASYNC_OP_UPDATE_REFERENCE_COUNTS, VIO_ASYNC_OP_VERIFY_DUPLICATION, VIO_ASYNC_OP_WRITE_DATA_VIO, MAX_VIO_ASYNC_OPERATION_NUMBER, } __packed; struct lbn_lock { logical_block_number_t lbn; bool locked; struct vdo_wait_queue waiters; struct logical_zone *zone; }; /* A position in the arboreal block map at a specific level. */ struct block_map_tree_slot { page_number_t page_index; struct block_map_slot block_map_slot; }; /* Fields for using the arboreal block map. */ struct tree_lock { /* The current height at which this data_vio is operating */ height_t height; /* The block map tree for this LBN */ root_count_t root_index; /* Whether we hold a page lock */ bool locked; /* The key for the lock map */ u64 key; /* The queue of waiters for the page this vio is allocating or loading */ struct vdo_wait_queue waiters; /* The block map tree slots for this LBN */ struct block_map_tree_slot tree_slots[VDO_BLOCK_MAP_TREE_HEIGHT + 1]; }; struct zoned_pbn { physical_block_number_t pbn; enum block_mapping_state state; struct physical_zone *zone; }; /* * Where a data_vio is on the compression path; advance_compression_stage() depends on the order of * this enum. */ enum data_vio_compression_stage { /* A data_vio which has not yet entered the compression path */ DATA_VIO_PRE_COMPRESSOR, /* A data_vio which is in the compressor */ DATA_VIO_COMPRESSING, /* A data_vio which is blocked in the packer */ DATA_VIO_PACKING, /* A data_vio which is no longer on the compression path (and never will be) */ DATA_VIO_POST_PACKER, }; struct data_vio_compression_status { enum data_vio_compression_stage stage; bool may_not_compress; }; struct compression_state { /* * The current compression status of this data_vio. This field contains a value which * consists of a data_vio_compression_stage and a flag indicating whether a request has * been made to cancel (or prevent) compression for this data_vio. * * This field should be accessed through the get_data_vio_compression_status() and * set_data_vio_compression_status() methods. It should not be accessed directly. */ atomic_t status; /* The compressed size of this block */ u16 size; /* The packer input or output bin slot which holds the enclosing data_vio */ slot_number_t slot; /* The packer bin to which the enclosing data_vio has been assigned */ struct packer_bin *bin; /* A link in the chain of data_vios which have been packed together */ struct data_vio *next_in_batch; /* A vio which is blocked in the packer while holding a lock this vio needs. */ struct data_vio *lock_holder; /* * The compressed block used to hold the compressed form of this block and that of any * other blocks for which this data_vio is the compressed write agent. */ struct compressed_block *block; }; /* Fields supporting allocation of data blocks. */ struct allocation { /* The physical zone in which to allocate a physical block */ struct physical_zone *zone; /* The block allocated to this vio */ physical_block_number_t pbn; /* * If non-NULL, the pooled PBN lock held on the allocated block. Must be a write lock until * the block has been written, after which it will become a read lock. */ struct pbn_lock *lock; /* The type of write lock to obtain on the allocated block */ enum pbn_lock_type write_lock_type; /* The zone which was the start of the current allocation cycle */ zone_count_t first_allocation_zone; /* Whether this vio should wait for a clean slab */ bool wait_for_clean_slab; }; struct reference_updater { enum journal_operation operation; bool increment; struct zoned_pbn zpbn; struct pbn_lock *lock; struct vdo_waiter waiter; }; /* A vio for processing user data requests. */ struct data_vio { /* The vdo_wait_queue entry structure */ struct vdo_waiter waiter; /* The logical block of this request */ struct lbn_lock logical; /* The state for traversing the block map tree */ struct tree_lock tree_lock; /* The current partition address of this block */ struct zoned_pbn mapped; /* The hash of this vio (if not zero) */ struct uds_record_name record_name; /* Used for logging and debugging */ enum async_operation_number last_async_operation; /* The operations to record in the recovery and slab journals */ struct reference_updater increment_updater; struct reference_updater decrement_updater; u16 read : 1; u16 write : 1; u16 fua : 1; u16 is_zero : 1; u16 is_discard : 1; u16 is_partial : 1; u16 is_duplicate : 1; u16 first_reference_operation_complete : 1; u16 downgrade_allocation_lock : 1; struct allocation allocation; /* * Whether this vio has received an allocation. This field is examined from threads not in * the allocation zone. */ bool allocation_succeeded; /* The new partition address of this block after the vio write completes */ struct zoned_pbn new_mapped; /* The hash zone responsible for the name (NULL if is_zero_block) */ struct hash_zone *hash_zone; /* The lock this vio holds or shares with other vios with the same data */ struct hash_lock *hash_lock; /* All data_vios sharing a hash lock are kept in a list linking these list entries */ struct list_head hash_lock_entry; /* The block number in the partition of the UDS deduplication advice */ struct zoned_pbn duplicate; /* * The sequence number of the recovery journal block containing the increment entry for * this vio. */ sequence_number_t recovery_sequence_number; /* The point in the recovery journal where this write last made an entry */ struct journal_point recovery_journal_point; /* The list of vios in user initiated write requests */ struct list_head write_entry; /* The generation number of the VDO that this vio belongs to */ sequence_number_t flush_generation; /* The completion to use for fetching block map pages for this vio */ struct vdo_page_completion page_completion; /* The user bio that initiated this VIO */ struct bio *user_bio; /* partial block support */ block_size_t offset; /* * The number of bytes to be discarded. For discards, this field will always be positive, * whereas for non-discards it will always be 0. Hence it can be used to determine whether * a data_vio is processing a discard, even after the user_bio has been acknowledged. */ u32 remaining_discard; struct dedupe_context *dedupe_context; /* Fields beyond this point will not be reset when a pooled data_vio is reused. */ struct vio vio; /* The completion for making reference count decrements */ struct vdo_completion decrement_completion; /* All of the fields necessary for the compression path */ struct compression_state compression; /* A block used as output during compression or uncompression */ char *scratch_block; struct list_head pool_entry; }; static inline struct data_vio *vio_as_data_vio(struct vio *vio) { VDO_ASSERT_LOG_ONLY((vio->type == VIO_TYPE_DATA), "vio is a data_vio"); return container_of(vio, struct data_vio, vio); } static inline struct data_vio *as_data_vio(struct vdo_completion *completion) { return vio_as_data_vio(as_vio(completion)); } static inline struct data_vio *vdo_waiter_as_data_vio(struct vdo_waiter *waiter) { if (waiter == NULL) return NULL; return container_of(waiter, struct data_vio, waiter); } static inline struct data_vio *data_vio_from_reference_updater(struct reference_updater *updater) { if (updater->increment) return container_of(updater, struct data_vio, increment_updater); return container_of(updater, struct data_vio, decrement_updater); } static inline bool data_vio_has_flush_generation_lock(struct data_vio *data_vio) { return !list_empty(&data_vio->write_entry); } static inline struct vdo *vdo_from_data_vio(struct data_vio *data_vio) { return data_vio->vio.completion.vdo; } static inline bool data_vio_has_allocation(struct data_vio *data_vio) { return (data_vio->allocation.pbn != VDO_ZERO_BLOCK); } struct data_vio_compression_status __must_check advance_data_vio_compression_stage(struct data_vio *data_vio); struct data_vio_compression_status __must_check get_data_vio_compression_status(struct data_vio *data_vio); bool cancel_data_vio_compression(struct data_vio *data_vio); struct data_vio_pool; int make_data_vio_pool(struct vdo *vdo, data_vio_count_t pool_size, data_vio_count_t discard_limit, struct data_vio_pool **pool_ptr); void free_data_vio_pool(struct data_vio_pool *pool); void vdo_launch_bio(struct data_vio_pool *pool, struct bio *bio); void drain_data_vio_pool(struct data_vio_pool *pool, struct vdo_completion *completion); void resume_data_vio_pool(struct data_vio_pool *pool, struct vdo_completion *completion); void dump_data_vio_pool(struct data_vio_pool *pool, bool dump_vios); data_vio_count_t get_data_vio_pool_active_discards(struct data_vio_pool *pool); data_vio_count_t get_data_vio_pool_discard_limit(struct data_vio_pool *pool); data_vio_count_t get_data_vio_pool_maximum_discards(struct data_vio_pool *pool); int __must_check set_data_vio_pool_discard_limit(struct data_vio_pool *pool, data_vio_count_t limit); data_vio_count_t get_data_vio_pool_active_requests(struct data_vio_pool *pool); data_vio_count_t get_data_vio_pool_request_limit(struct data_vio_pool *pool); data_vio_count_t get_data_vio_pool_maximum_requests(struct data_vio_pool *pool); void complete_data_vio(struct vdo_completion *completion); void handle_data_vio_error(struct vdo_completion *completion); static inline void continue_data_vio(struct data_vio *data_vio) { vdo_launch_completion(&data_vio->vio.completion); } /** * continue_data_vio_with_error() - Set an error code and then continue processing a data_vio. * * This will not mask older errors. This function can be called with a success code, but it is more * efficient to call continue_data_vio() if the caller knows the result was a success. */ static inline void continue_data_vio_with_error(struct data_vio *data_vio, int result) { vdo_continue_completion(&data_vio->vio.completion, result); } const char * __must_check get_data_vio_operation_name(struct data_vio *data_vio); static inline void assert_data_vio_in_hash_zone(struct data_vio *data_vio) { thread_id_t expected = data_vio->hash_zone->thread_id; thread_id_t thread_id = vdo_get_callback_thread_id(); /* * It's odd to use the LBN, but converting the record name to hex is a bit clunky for an * inline, and the LBN better than nothing as an identifier. */ VDO_ASSERT_LOG_ONLY((expected == thread_id), "data_vio for logical block %llu on thread %u, should be on hash zone thread %u", (unsigned long long) data_vio->logical.lbn, thread_id, expected); } static inline void set_data_vio_hash_zone_callback(struct data_vio *data_vio, vdo_action_fn callback) { vdo_set_completion_callback(&data_vio->vio.completion, callback, data_vio->hash_zone->thread_id); } /** * launch_data_vio_hash_zone_callback() - Set a callback as a hash zone operation and invoke it * immediately. */ static inline void launch_data_vio_hash_zone_callback(struct data_vio *data_vio, vdo_action_fn callback) { set_data_vio_hash_zone_callback(data_vio, callback); vdo_launch_completion(&data_vio->vio.completion); } static inline void assert_data_vio_in_logical_zone(struct data_vio *data_vio) { thread_id_t expected = data_vio->logical.zone->thread_id; thread_id_t thread_id = vdo_get_callback_thread_id(); VDO_ASSERT_LOG_ONLY((expected == thread_id), "data_vio for logical block %llu on thread %u, should be on thread %u", (unsigned long long) data_vio->logical.lbn, thread_id, expected); } static inline void set_data_vio_logical_callback(struct data_vio *data_vio, vdo_action_fn callback) { vdo_set_completion_callback(&data_vio->vio.completion, callback, data_vio->logical.zone->thread_id); } /** * launch_data_vio_logical_callback() - Set a callback as a logical block operation and invoke it * immediately. */ static inline void launch_data_vio_logical_callback(struct data_vio *data_vio, vdo_action_fn callback) { set_data_vio_logical_callback(data_vio, callback); vdo_launch_completion(&data_vio->vio.completion); } static inline void assert_data_vio_in_allocated_zone(struct data_vio *data_vio) { thread_id_t expected = data_vio->allocation.zone->thread_id; thread_id_t thread_id = vdo_get_callback_thread_id(); VDO_ASSERT_LOG_ONLY((expected == thread_id), "struct data_vio for allocated physical block %llu on thread %u, should be on thread %u", (unsigned long long) data_vio->allocation.pbn, thread_id, expected); } static inline void set_data_vio_allocated_zone_callback(struct data_vio *data_vio, vdo_action_fn callback) { vdo_set_completion_callback(&data_vio->vio.completion, callback, data_vio->allocation.zone->thread_id); } /** * launch_data_vio_allocated_zone_callback() - Set a callback as a physical block operation in a * data_vio's allocated zone and queue the data_vio and * invoke it immediately. */ static inline void launch_data_vio_allocated_zone_callback(struct data_vio *data_vio, vdo_action_fn callback) { set_data_vio_allocated_zone_callback(data_vio, callback); vdo_launch_completion(&data_vio->vio.completion); } static inline void assert_data_vio_in_duplicate_zone(struct data_vio *data_vio) { thread_id_t expected = data_vio->duplicate.zone->thread_id; thread_id_t thread_id = vdo_get_callback_thread_id(); VDO_ASSERT_LOG_ONLY((expected == thread_id), "data_vio for duplicate physical block %llu on thread %u, should be on thread %u", (unsigned long long) data_vio->duplicate.pbn, thread_id, expected); } static inline void set_data_vio_duplicate_zone_callback(struct data_vio *data_vio, vdo_action_fn callback) { vdo_set_completion_callback(&data_vio->vio.completion, callback, data_vio->duplicate.zone->thread_id); } /** * launch_data_vio_duplicate_zone_callback() - Set a callback as a physical block operation in a * data_vio's duplicate zone and queue the data_vio and * invoke it immediately. */ static inline void launch_data_vio_duplicate_zone_callback(struct data_vio *data_vio, vdo_action_fn callback) { set_data_vio_duplicate_zone_callback(data_vio, callback); vdo_launch_completion(&data_vio->vio.completion); } static inline void assert_data_vio_in_mapped_zone(struct data_vio *data_vio) { thread_id_t expected = data_vio->mapped.zone->thread_id; thread_id_t thread_id = vdo_get_callback_thread_id(); VDO_ASSERT_LOG_ONLY((expected == thread_id), "data_vio for mapped physical block %llu on thread %u, should be on thread %u", (unsigned long long) data_vio->mapped.pbn, thread_id, expected); } static inline void set_data_vio_mapped_zone_callback(struct data_vio *data_vio, vdo_action_fn callback) { vdo_set_completion_callback(&data_vio->vio.completion, callback, data_vio->mapped.zone->thread_id); } static inline void assert_data_vio_in_new_mapped_zone(struct data_vio *data_vio) { thread_id_t expected = data_vio->new_mapped.zone->thread_id; thread_id_t thread_id = vdo_get_callback_thread_id(); VDO_ASSERT_LOG_ONLY((expected == thread_id), "data_vio for new_mapped physical block %llu on thread %u, should be on thread %u", (unsigned long long) data_vio->new_mapped.pbn, thread_id, expected); } static inline void set_data_vio_new_mapped_zone_callback(struct data_vio *data_vio, vdo_action_fn callback) { vdo_set_completion_callback(&data_vio->vio.completion, callback, data_vio->new_mapped.zone->thread_id); } static inline void assert_data_vio_in_journal_zone(struct data_vio *data_vio) { thread_id_t journal_thread = vdo_from_data_vio(data_vio)->thread_config.journal_thread; thread_id_t thread_id = vdo_get_callback_thread_id(); VDO_ASSERT_LOG_ONLY((journal_thread == thread_id), "data_vio for logical block %llu on thread %u, should be on journal thread %u", (unsigned long long) data_vio->logical.lbn, thread_id, journal_thread); } static inline void set_data_vio_journal_callback(struct data_vio *data_vio, vdo_action_fn callback) { thread_id_t journal_thread = vdo_from_data_vio(data_vio)->thread_config.journal_thread; vdo_set_completion_callback(&data_vio->vio.completion, callback, journal_thread); } /** * launch_data_vio_journal_callback() - Set a callback as a journal operation and invoke it * immediately. */ static inline void launch_data_vio_journal_callback(struct data_vio *data_vio, vdo_action_fn callback) { set_data_vio_journal_callback(data_vio, callback); vdo_launch_completion(&data_vio->vio.completion); } static inline void assert_data_vio_in_packer_zone(struct data_vio *data_vio) { thread_id_t packer_thread = vdo_from_data_vio(data_vio)->thread_config.packer_thread; thread_id_t thread_id = vdo_get_callback_thread_id(); VDO_ASSERT_LOG_ONLY((packer_thread == thread_id), "data_vio for logical block %llu on thread %u, should be on packer thread %u", (unsigned long long) data_vio->logical.lbn, thread_id, packer_thread); } static inline void set_data_vio_packer_callback(struct data_vio *data_vio, vdo_action_fn callback) { thread_id_t packer_thread = vdo_from_data_vio(data_vio)->thread_config.packer_thread; vdo_set_completion_callback(&data_vio->vio.completion, callback, packer_thread); } /** * launch_data_vio_packer_callback() - Set a callback as a packer operation and invoke it * immediately. */ static inline void launch_data_vio_packer_callback(struct data_vio *data_vio, vdo_action_fn callback) { set_data_vio_packer_callback(data_vio, callback); vdo_launch_completion(&data_vio->vio.completion); } static inline void assert_data_vio_on_cpu_thread(struct data_vio *data_vio) { thread_id_t cpu_thread = vdo_from_data_vio(data_vio)->thread_config.cpu_thread; thread_id_t thread_id = vdo_get_callback_thread_id(); VDO_ASSERT_LOG_ONLY((cpu_thread == thread_id), "data_vio for logical block %llu on thread %u, should be on cpu thread %u", (unsigned long long) data_vio->logical.lbn, thread_id, cpu_thread); } static inline void set_data_vio_cpu_callback(struct data_vio *data_vio, vdo_action_fn callback) { thread_id_t cpu_thread = vdo_from_data_vio(data_vio)->thread_config.cpu_thread; vdo_set_completion_callback(&data_vio->vio.completion, callback, cpu_thread); } /** * launch_data_vio_cpu_callback() - Set a callback to run on the CPU queues and invoke it * immediately. */ static inline void launch_data_vio_cpu_callback(struct data_vio *data_vio, vdo_action_fn callback, enum vdo_completion_priority priority) { set_data_vio_cpu_callback(data_vio, callback); vdo_launch_completion_with_priority(&data_vio->vio.completion, priority); } static inline void set_data_vio_bio_zone_callback(struct data_vio *data_vio, vdo_action_fn callback) { vdo_set_completion_callback(&data_vio->vio.completion, callback, get_vio_bio_zone_thread_id(&data_vio->vio)); } /** * launch_data_vio_bio_zone_callback() - Set a callback as a bio zone operation and invoke it * immediately. */ static inline void launch_data_vio_bio_zone_callback(struct data_vio *data_vio, vdo_action_fn callback) { set_data_vio_bio_zone_callback(data_vio, callback); vdo_launch_completion_with_priority(&data_vio->vio.completion, BIO_Q_DATA_PRIORITY); } /** * launch_data_vio_on_bio_ack_queue() - If the vdo uses a bio_ack queue, set a callback to run on * it and invoke it immediately, otherwise, just run the * callback on the current thread. */ static inline void launch_data_vio_on_bio_ack_queue(struct data_vio *data_vio, vdo_action_fn callback) { struct vdo_completion *completion = &data_vio->vio.completion; struct vdo *vdo = completion->vdo; if (!vdo_uses_bio_ack_queue(vdo)) { callback(completion); return; } vdo_set_completion_callback(completion, callback, vdo->thread_config.bio_ack_thread); vdo_launch_completion_with_priority(completion, BIO_ACK_Q_ACK_PRIORITY); } void data_vio_allocate_data_block(struct data_vio *data_vio, enum pbn_lock_type write_lock_type, vdo_action_fn callback, vdo_action_fn error_handler); void release_data_vio_allocation_lock(struct data_vio *data_vio, bool reset); int __must_check uncompress_data_vio(struct data_vio *data_vio, enum block_mapping_state mapping_state, char *buffer); void update_metadata_for_data_vio_write(struct data_vio *data_vio, struct pbn_lock *lock); void write_data_vio(struct data_vio *data_vio); void launch_compress_data_vio(struct data_vio *data_vio); void continue_data_vio_with_block_map_slot(struct vdo_completion *completion); #endif /* DATA_VIO_H */
Information contained on this website is for historical information purposes only and does not indicate or represent copyright ownership.
Created with Cregit http://github.com/cregit/cregit
Version 2.0-RC1