// SPDX-License-Identifier: GPL-2.0-only /* * Copyright 2023 Red Hat */ #include "physical-zone.h" #include #include "logger.h" #include "memory-alloc.h" #include "permassert.h" #include "block-map.h" #include "completion.h" #include "constants.h" #include "data-vio.h" #include "dedupe.h" #include "encodings.h" #include "flush.h" #include "int-map.h" #include "slab-depot.h" #include "status-codes.h" #include "vdo.h" /* Each user data_vio needs a PBN read lock and write lock. */ #define LOCK_POOL_CAPACITY (2 * MAXIMUM_VDO_USER_VIOS) struct pbn_lock_implementation { enum pbn_lock_type type; const char *name; const char *release_reason; }; /* This array must have an entry for every pbn_lock_type value. */ static const struct pbn_lock_implementation LOCK_IMPLEMENTATIONS[] = { [VIO_READ_LOCK] = { .type = VIO_READ_LOCK, .name = "read", .release_reason = "candidate duplicate", }, [VIO_WRITE_LOCK] = { .type = VIO_WRITE_LOCK, .name = "write", .release_reason = "newly allocated", }, [VIO_BLOCK_MAP_WRITE_LOCK] = { .type = VIO_BLOCK_MAP_WRITE_LOCK, .name = "block map write", .release_reason = "block map write", }, }; static inline bool has_lock_type(const struct pbn_lock *lock, enum pbn_lock_type type) { return (lock->implementation == &LOCK_IMPLEMENTATIONS[type]); } /** * vdo_is_pbn_read_lock() - Check whether a pbn_lock is a read lock. * @lock: The lock to check. * * Return: true if the lock is a read lock. */ bool vdo_is_pbn_read_lock(const struct pbn_lock *lock) { return has_lock_type(lock, VIO_READ_LOCK); } static inline void set_pbn_lock_type(struct pbn_lock *lock, enum pbn_lock_type type) { lock->implementation = &LOCK_IMPLEMENTATIONS[type]; } /** * vdo_downgrade_pbn_write_lock() - Downgrade a PBN write lock to a PBN read lock. * @lock: The PBN write lock to downgrade. * * The lock holder count is cleared and the caller is responsible for setting the new count. */ void vdo_downgrade_pbn_write_lock(struct pbn_lock *lock, bool compressed_write) { VDO_ASSERT_LOG_ONLY(!vdo_is_pbn_read_lock(lock), "PBN lock must not already have been downgraded"); VDO_ASSERT_LOG_ONLY(!has_lock_type(lock, VIO_BLOCK_MAP_WRITE_LOCK), "must not downgrade block map write locks"); VDO_ASSERT_LOG_ONLY(lock->holder_count == 1, "PBN write lock should have one holder but has %u", lock->holder_count); /* * data_vio write locks are downgraded in place--the writer retains the hold on the lock. * If this was a compressed write, the holder has not yet journaled its own inc ref, * otherwise, it has. */ lock->increment_limit = (compressed_write ? MAXIMUM_REFERENCE_COUNT : MAXIMUM_REFERENCE_COUNT - 1); set_pbn_lock_type(lock, VIO_READ_LOCK); } /** * vdo_claim_pbn_lock_increment() - Try to claim one of the available reference count increments on * a read lock. * @lock: The PBN read lock from which to claim an increment. * * Claims may be attempted from any thread. A claim is only valid until the PBN lock is released. * * Return: true if the claim succeeded, guaranteeing one increment can be made without overflowing * the PBN's reference count. */ bool vdo_claim_pbn_lock_increment(struct pbn_lock *lock) { /* * Claim the next free reference atomically since hash locks from multiple hash zone * threads might be concurrently deduplicating against a single PBN lock on compressed * block. As long as hitting the increment limit will lead to the PBN lock being released * in a sane time-frame, we won't overflow a 32-bit claim counter, allowing a simple add * instead of a compare-and-swap. */ u32 claim_number = (u32) atomic_add_return(1, &lock->increments_claimed); return (claim_number <= lock->increment_limit); } /** * vdo_assign_pbn_lock_provisional_reference() - Inform a PBN lock that it is responsible for a * provisional reference. * @lock: The PBN lock. */ void vdo_assign_pbn_lock_provisional_reference(struct pbn_lock *lock) { VDO_ASSERT_LOG_ONLY(!lock->has_provisional_reference, "lock does not have a provisional reference"); lock->has_provisional_reference = true; } /** * vdo_unassign_pbn_lock_provisional_reference() - Inform a PBN lock that it is no longer * responsible for a provisional reference. * @lock: The PBN lock. */ void vdo_unassign_pbn_lock_provisional_reference(struct pbn_lock *lock) { lock->has_provisional_reference = false; } /** * release_pbn_lock_provisional_reference() - If the lock is responsible for a provisional * reference, release that reference. * @lock: The lock. * @locked_pbn: The PBN covered by the lock. * @allocator: The block allocator from which to release the reference. * * This method is called when the lock is released. */ static void release_pbn_lock_provisional_reference(struct pbn_lock *lock, physical_block_number_t locked_pbn, struct block_allocator *allocator) { int result; if (!vdo_pbn_lock_has_provisional_reference(lock)) return; result = vdo_release_block_reference(allocator, locked_pbn); if (result != VDO_SUCCESS) { vdo_log_error_strerror(result, "Failed to release reference to %s physical block %llu", lock->implementation->release_reason, (unsigned long long) locked_pbn); } vdo_unassign_pbn_lock_provisional_reference(lock); } /** * union idle_pbn_lock - PBN lock list entries. * * Unused (idle) PBN locks are kept in a list. Just like in a malloc implementation, the lock * structure is unused memory, so we can save a bit of space (and not pollute the lock structure * proper) by using a union to overlay the lock structure with the free list. */ typedef union { /** @entry: Only used while locks are in the pool. */ struct list_head entry; /** @lock: Only used while locks are not in the pool. */ struct pbn_lock lock; } idle_pbn_lock; /** * struct pbn_lock_pool - list of PBN locks. * * The lock pool is little more than the memory allocated for the locks. */ struct pbn_lock_pool { /** @capacity: The number of locks allocated for the pool. */ size_t capacity; /** @borrowed: The number of locks currently borrowed from the pool. */ size_t borrowed; /** @idle_list: A list containing all idle PBN lock instances. */ struct list_head idle_list; /** @locks: The memory for all the locks allocated by this pool. */ idle_pbn_lock locks[]; }; /** * return_pbn_lock_to_pool() - Return a pbn lock to its pool. * @pool: The pool from which the lock was borrowed. * @lock: The last reference to the lock being returned. * * It must be the last live reference, as if the memory were being freed (the lock memory will * re-initialized or zeroed). */ static void return_pbn_lock_to_pool(struct pbn_lock_pool *pool, struct pbn_lock *lock) { idle_pbn_lock *idle; /* A bit expensive, but will promptly catch some use-after-free errors. */ memset(lock, 0, sizeof(*lock)); idle = container_of(lock, idle_pbn_lock, lock); INIT_LIST_HEAD(&idle->entry); list_add_tail(&idle->entry, &pool->idle_list); VDO_ASSERT_LOG_ONLY(pool->borrowed > 0, "shouldn't return more than borrowed"); pool->borrowed -= 1; } /** * make_pbn_lock_pool() - Create a new PBN lock pool and all the lock instances it can loan out. * * @capacity: The number of PBN locks to allocate for the pool. * @pool_ptr: A pointer to receive the new pool. * * Return: VDO_SUCCESS or an error code. */ static int make_pbn_lock_pool(size_t capacity, struct pbn_lock_pool **pool_ptr) { size_t i; struct pbn_lock_pool *pool; int result; result = vdo_allocate_extended(struct pbn_lock_pool, capacity, idle_pbn_lock, __func__, &pool); if (result != VDO_SUCCESS) return result; pool->capacity = capacity; pool->borrowed = capacity; INIT_LIST_HEAD(&pool->idle_list); for (i = 0; i < capacity; i++) return_pbn_lock_to_pool(pool, &pool->locks[i].lock); *pool_ptr = pool; return VDO_SUCCESS; } /** * free_pbn_lock_pool() - Free a PBN lock pool. * @pool: The lock pool to free. * * This also frees all the PBN locks it allocated, so the caller must ensure that all locks have * been returned to the pool. */ static void free_pbn_lock_pool(struct pbn_lock_pool *pool) { if (pool == NULL) return; VDO_ASSERT_LOG_ONLY(pool->borrowed == 0, "All PBN locks must be returned to the pool before it is freed, but %zu locks are still on loan", pool->borrowed); vdo_free(pool); } /** * borrow_pbn_lock_from_pool() - Borrow a PBN lock from the pool and initialize it with the * provided type. * @pool: The pool from which to borrow. * @type: The type with which to initialize the lock. * @lock_ptr: A pointer to receive the borrowed lock. * * Pools do not grow on demand or allocate memory, so this will fail if the pool is empty. Borrowed * locks are still associated with this pool and must be returned to only this pool. * * Return: VDO_SUCCESS, or VDO_LOCK_ERROR if the pool is empty. */ static int __must_check borrow_pbn_lock_from_pool(struct pbn_lock_pool *pool, enum pbn_lock_type type, struct pbn_lock **lock_ptr) { int result; struct list_head *idle_entry; idle_pbn_lock *idle; if (pool->borrowed >= pool->capacity) return vdo_log_error_strerror(VDO_LOCK_ERROR, "no free PBN locks left to borrow"); pool->borrowed += 1; result = VDO_ASSERT(!list_empty(&pool->idle_list), "idle list should not be empty if pool not at capacity"); if (result != VDO_SUCCESS) return result; idle_entry = pool->idle_list.prev; list_del(idle_entry); memset(idle_entry, 0, sizeof(*idle_entry)); idle = list_entry(idle_entry, idle_pbn_lock, entry); idle->lock.holder_count = 0; set_pbn_lock_type(&idle->lock, type); *lock_ptr = &idle->lock; return VDO_SUCCESS; } /** * initialize_zone() - Initialize a physical zone. * @vdo: The vdo to which the zone will belong. * @zones: The physical_zones to which the zone being initialized belongs * * Return: VDO_SUCCESS or an error code. */ static int initialize_zone(struct vdo *vdo, struct physical_zones *zones) { int result; zone_count_t zone_number = zones->zone_count; struct physical_zone *zone = &zones->zones[zone_number]; result = vdo_int_map_create(VDO_LOCK_MAP_CAPACITY, &zone->pbn_operations); if (result != VDO_SUCCESS) return result; result = make_pbn_lock_pool(LOCK_POOL_CAPACITY, &zone->lock_pool); if (result != VDO_SUCCESS) { vdo_int_map_free(zone->pbn_operations); return result; } zone->zone_number = zone_number; zone->thread_id = vdo->thread_config.physical_threads[zone_number]; zone->allocator = &vdo->depot->allocators[zone_number]; zone->next = &zones->zones[(zone_number + 1) % vdo->thread_config.physical_zone_count]; result = vdo_make_default_thread(vdo, zone->thread_id); if (result != VDO_SUCCESS) { free_pbn_lock_pool(vdo_forget(zone->lock_pool)); vdo_int_map_free(zone->pbn_operations); return result; } return result; } /** * vdo_make_physical_zones() - Make the physical zones for a vdo. * @vdo: The vdo being constructed * @zones_ptr: A pointer to hold the zones * * Return: VDO_SUCCESS or an error code. */ int vdo_make_physical_zones(struct vdo *vdo, struct physical_zones **zones_ptr) { struct physical_zones *zones; int result; zone_count_t zone_count = vdo->thread_config.physical_zone_count; if (zone_count == 0) return VDO_SUCCESS; result = vdo_allocate_extended(struct physical_zones, zone_count, struct physical_zone, __func__, &zones); if (result != VDO_SUCCESS) return result; for (zones->zone_count = 0; zones->zone_count < zone_count; zones->zone_count++) { result = initialize_zone(vdo, zones); if (result != VDO_SUCCESS) { vdo_free_physical_zones(zones); return result; } } *zones_ptr = zones; return VDO_SUCCESS; } /** * vdo_free_physical_zones() - Destroy the physical zones. * @zones: The zones to free. */ void vdo_free_physical_zones(struct physical_zones *zones) { zone_count_t index; if (zones == NULL) return; for (index = 0; index < zones->zone_count; index++) { struct physical_zone *zone = &zones->zones[index]; free_pbn_lock_pool(vdo_forget(zone->lock_pool)); vdo_int_map_free(vdo_forget(zone->pbn_operations)); } vdo_free(zones); } /** * vdo_get_physical_zone_pbn_lock() - Get the lock on a PBN if one exists. * @zone: The physical zone responsible for the PBN. * @pbn: The physical block number whose lock is desired. * * Return: The lock or NULL if the PBN is not locked. */ struct pbn_lock *vdo_get_physical_zone_pbn_lock(struct physical_zone *zone, physical_block_number_t pbn) { return ((zone == NULL) ? NULL : vdo_int_map_get(zone->pbn_operations, pbn)); } /** * vdo_attempt_physical_zone_pbn_lock() - Attempt to lock a physical block in the zone responsible * for it. * @zone: The physical zone responsible for the PBN. * @pbn: The physical block number to lock. * @type: The type with which to initialize a new lock. * @lock_ptr: A pointer to receive the lock, existing or new. * * If the PBN is already locked, the existing lock will be returned. Otherwise, a new lock instance * will be borrowed from the pool, initialized, and returned. The lock owner will be NULL for a new * lock acquired by the caller, who is responsible for setting that field promptly. The lock owner * will be non-NULL when there is already an existing lock on the PBN. * * Return: VDO_SUCCESS or an error. */ int vdo_attempt_physical_zone_pbn_lock(struct physical_zone *zone, physical_block_number_t pbn, enum pbn_lock_type type, struct pbn_lock **lock_ptr) { /* * Borrow and prepare a lock from the pool so we don't have to do two int_map accesses in * the common case of no lock contention. */ struct pbn_lock *lock, *new_lock = NULL; int result; result = borrow_pbn_lock_from_pool(zone->lock_pool, type, &new_lock); if (result != VDO_SUCCESS) { VDO_ASSERT_LOG_ONLY(false, "must always be able to borrow a PBN lock"); return result; } result = vdo_int_map_put(zone->pbn_operations, pbn, new_lock, false, (void **) &lock); if (result != VDO_SUCCESS) { return_pbn_lock_to_pool(zone->lock_pool, new_lock); return result; } if (lock != NULL) { /* The lock is already held, so we don't need the borrowed one. */ return_pbn_lock_to_pool(zone->lock_pool, vdo_forget(new_lock)); result = VDO_ASSERT(lock->holder_count > 0, "physical block %llu lock held", (unsigned long long) pbn); if (result != VDO_SUCCESS) return result; *lock_ptr = lock; } else { *lock_ptr = new_lock; } return VDO_SUCCESS; } /** * allocate_and_lock_block() - Attempt to allocate a block from this zone. * @allocation: The struct allocation of the data_vio attempting to allocate. * * If a block is allocated, the recipient will also hold a lock on it. * * Return: VDO_SUCCESS if a block was allocated, or an error code. */ static int allocate_and_lock_block(struct allocation *allocation) { int result; struct pbn_lock *lock; VDO_ASSERT_LOG_ONLY(allocation->lock == NULL, "must not allocate a block while already holding a lock on one"); result = vdo_allocate_block(allocation->zone->allocator, &allocation->pbn); if (result != VDO_SUCCESS) return result; result = vdo_attempt_physical_zone_pbn_lock(allocation->zone, allocation->pbn, allocation->write_lock_type, &lock); if (result != VDO_SUCCESS) return result; if (lock->holder_count > 0) { /* This block is already locked, which should be impossible. */ return vdo_log_error_strerror(VDO_LOCK_ERROR, "Newly allocated block %llu was spuriously locked (holder_count=%u)", (unsigned long long) allocation->pbn, lock->holder_count); } /* We've successfully acquired a new lock, so mark it as ours. */ lock->holder_count += 1; allocation->lock = lock; vdo_assign_pbn_lock_provisional_reference(lock); return VDO_SUCCESS; } /** * retry_allocation() - Retry allocating a block now that we're done waiting for scrubbing. * @waiter: The allocating_vio that was waiting to allocate. * @context: The context (unused). */ static void retry_allocation(struct vdo_waiter *waiter, void *context __always_unused) { struct data_vio *data_vio = vdo_waiter_as_data_vio(waiter); /* Now that some slab has scrubbed, restart the allocation process. */ data_vio->allocation.wait_for_clean_slab = false; data_vio->allocation.first_allocation_zone = data_vio->allocation.zone->zone_number; continue_data_vio(data_vio); } /** * continue_allocating() - Continue searching for an allocation by enqueuing to wait for scrubbing * or switching to the next zone. * @data_vio: The data_vio attempting to get an allocation. * * This method should only be called from the error handler set in data_vio_allocate_data_block. * * Return: true if the allocation process has continued in another zone. */ static bool continue_allocating(struct data_vio *data_vio) { struct allocation *allocation = &data_vio->allocation; struct physical_zone *zone = allocation->zone; struct vdo_completion *completion = &data_vio->vio.completion; int result = VDO_SUCCESS; bool was_waiting = allocation->wait_for_clean_slab; bool tried_all = (allocation->first_allocation_zone == zone->next->zone_number); vdo_reset_completion(completion); if (tried_all && !was_waiting) { /* * We've already looked in all the zones, and found nothing. So go through the * zones again, and wait for each to scrub before trying to allocate. */ allocation->wait_for_clean_slab = true; allocation->first_allocation_zone = zone->zone_number; } if (allocation->wait_for_clean_slab) { data_vio->waiter.callback = retry_allocation; result = vdo_enqueue_clean_slab_waiter(zone->allocator, &data_vio->waiter); if (result == VDO_SUCCESS) { /* We've enqueued to wait for a slab to be scrubbed. */ return true; } if ((result != VDO_NO_SPACE) || (was_waiting && tried_all)) { vdo_set_completion_result(completion, result); return false; } } allocation->zone = zone->next; completion->callback_thread_id = allocation->zone->thread_id; vdo_launch_completion(completion); return true; } /** * vdo_allocate_block_in_zone() - Attempt to allocate a block in the current physical zone, and if * that fails try the next if possible. * @data_vio: The data_vio needing an allocation. * * Return: true if a block was allocated, if not the data_vio will have been dispatched so the * caller must not touch it. */ bool vdo_allocate_block_in_zone(struct data_vio *data_vio) { int result = allocate_and_lock_block(&data_vio->allocation); if (result == VDO_SUCCESS) return true; if ((result != VDO_NO_SPACE) || !continue_allocating(data_vio)) continue_data_vio_with_error(data_vio, result); return false; } /** * vdo_release_physical_zone_pbn_lock() - Release a physical block lock if it is held and return it * to the lock pool. * @zone: The physical zone in which the lock was obtained. * @locked_pbn: The physical block number to unlock. * @lock: The lock being released. * * It must be the last live reference, as if the memory were being freed (the * lock memory will re-initialized or zeroed). */ void vdo_release_physical_zone_pbn_lock(struct physical_zone *zone, physical_block_number_t locked_pbn, struct pbn_lock *lock) { struct pbn_lock *holder; if (lock == NULL) return; VDO_ASSERT_LOG_ONLY(lock->holder_count > 0, "should not be releasing a lock that is not held"); lock->holder_count -= 1; if (lock->holder_count > 0) { /* The lock was shared and is still referenced, so don't release it yet. */ return; } holder = vdo_int_map_remove(zone->pbn_operations, locked_pbn); VDO_ASSERT_LOG_ONLY((lock == holder), "physical block lock mismatch for block %llu", (unsigned long long) locked_pbn); release_pbn_lock_provisional_reference(lock, locked_pbn, zone->allocator); return_pbn_lock_to_pool(zone->lock_pool, lock); } /** * vdo_dump_physical_zone() - Dump information about a physical zone to the log for debugging. * @zone: The zone to dump. */ void vdo_dump_physical_zone(const struct physical_zone *zone) { vdo_dump_block_allocator(zone->allocator); }