The set of leaf pages of the block map tree is too large to fit in memory, so each block map zone maintains a cache of leaf pages. This patch adds the implementation of that cache. Co-developed-by: J. corwin Coburn <corwin@xxxxxxxxxxxxxx> Signed-off-by: J. corwin Coburn <corwin@xxxxxxxxxxxxxx> Co-developed-by: Michael Sclafani <vdo-devel@xxxxxxxxxx> Signed-off-by: Michael Sclafani <vdo-devel@xxxxxxxxxx> Co-developed-by: Sweet Tea Dorminy <sweettea-kernel@xxxxxxxxxx> Signed-off-by: Sweet Tea Dorminy <sweettea-kernel@xxxxxxxxxx> Signed-off-by: Matthew Sakai <msakai@xxxxxxxxxx> --- drivers/md/dm-vdo/block-map.c | 1231 +++++++++++++++++++++++++++++++++ drivers/md/dm-vdo/block-map.h | 165 +++++ 2 files changed, 1396 insertions(+) diff --git a/drivers/md/dm-vdo/block-map.c b/drivers/md/dm-vdo/block-map.c index a4bf60cd2613..d989e0366a25 100644 --- a/drivers/md/dm-vdo/block-map.c +++ b/drivers/md/dm-vdo/block-map.c @@ -106,6 +106,1237 @@ struct cursors { /* Used to indicate that the page holding the location of a tree root has been "loaded". */ const physical_block_number_t VDO_INVALID_PBN = 0xFFFFFFFFFFFFFFFF; +enum { + LOG_INTERVAL = 4000, + DISPLAY_INTERVAL = 100000, +}; + +/* + * For adjusting VDO page cache statistic fields which are only mutated on the logical zone thread. + * Prevents any compiler shenanigans from affecting other threads reading those stats. + */ +#define ADD_ONCE(value, delta) WRITE_ONCE(value, (value) + (delta)) + +static inline bool is_dirty(const struct page_info *info) +{ + return info->state == PS_DIRTY; +} + +static inline bool is_present(const struct page_info *info) +{ + return (info->state == PS_RESIDENT) || (info->state == PS_DIRTY); +} + +static inline bool is_in_flight(const struct page_info *info) +{ + return (info->state == PS_INCOMING) || (info->state == PS_OUTGOING); +} + +static inline bool is_incoming(const struct page_info *info) +{ + return info->state == PS_INCOMING; +} + +static inline bool is_outgoing(const struct page_info *info) +{ + return info->state == PS_OUTGOING; +} + +static inline bool is_valid(const struct page_info *info) +{ + return is_present(info) || is_outgoing(info); +} + +static char *get_page_buffer(struct page_info *info) +{ + struct vdo_page_cache *cache = info->cache; + + return &cache->pages[(info - cache->infos) * VDO_BLOCK_SIZE]; +} + +static inline struct vdo_page_completion *page_completion_from_waiter(struct waiter *waiter) +{ + struct vdo_page_completion *completion; + + if (waiter == NULL) + return NULL; + + completion = container_of(waiter, struct vdo_page_completion, waiter); + vdo_assert_completion_type(&completion->completion, VDO_PAGE_COMPLETION); + return completion; +} + +/** + * initialize_info() - Initialize all page info structures and put them on the free list. + * + * Return: VDO_SUCCESS or an error. + */ +static int initialize_info(struct vdo_page_cache *cache) +{ + struct page_info *info; + + INIT_LIST_HEAD(&cache->free_list); + for (info = cache->infos; info < cache->infos + cache->page_count; ++info) { + int result; + + info->cache = cache; + info->state = PS_FREE; + info->pbn = NO_PAGE; + + result = create_metadata_vio(cache->vdo, + VIO_TYPE_BLOCK_MAP, + VIO_PRIORITY_METADATA, info, + get_page_buffer(info), + &info->vio); + if (result != VDO_SUCCESS) + return result; + + /* The thread ID should never change. */ + info->vio->completion.callback_thread_id = cache->zone->thread_id; + + INIT_LIST_HEAD(&info->state_entry); + list_add_tail(&info->state_entry, &cache->free_list); + INIT_LIST_HEAD(&info->lru_entry); + } + + return VDO_SUCCESS; +} + +/** + * allocate_cache_components() - Allocate components of the cache which require their own + * allocation. + * @maximum_age: The number of journal blocks before a dirtied page is considered old and must be + * written out. + * + * The caller is responsible for all clean up on errors. + * + * Return: VDO_SUCCESS or an error code. + */ +static int __must_check allocate_cache_components(struct vdo_page_cache *cache) +{ + u64 size = cache->page_count * (u64) VDO_BLOCK_SIZE; + int result; + + result = UDS_ALLOCATE(cache->page_count, struct page_info, "page infos", &cache->infos); + if (result != UDS_SUCCESS) + return result; + + result = uds_allocate_memory(size, VDO_BLOCK_SIZE, "cache pages", &cache->pages); + if (result != UDS_SUCCESS) + return result; + + result = vdo_make_int_map(cache->page_count, 0, &cache->page_map); + if (result != UDS_SUCCESS) + return result; + + return initialize_info(cache); +} + +/** + * assert_on_cache_thread() - Assert that a function has been called on the VDO page cache's + * thread. + */ +static inline void assert_on_cache_thread(struct vdo_page_cache *cache, const char *function_name) +{ + thread_id_t thread_id = vdo_get_callback_thread_id(); + + ASSERT_LOG_ONLY((thread_id == cache->zone->thread_id), + "%s() must only be called on cache thread %d, not thread %d", + function_name, + cache->zone->thread_id, + thread_id); +} + +/** assert_io_allowed() - Assert that a page cache may issue I/O. */ +static inline void assert_io_allowed(struct vdo_page_cache *cache) +{ + ASSERT_LOG_ONLY(!vdo_is_state_quiescent(&cache->zone->state), + "VDO page cache may issue I/O"); +} + +/** report_cache_pressure() - Log and, if enabled, report cache pressure. */ +static void report_cache_pressure(struct vdo_page_cache *cache) +{ + ADD_ONCE(cache->stats.cache_pressure, 1); + if (cache->waiter_count > cache->page_count) { + if ((cache->pressure_report % LOG_INTERVAL) == 0) + uds_log_info("page cache pressure %u", cache->stats.cache_pressure); + + if (++cache->pressure_report >= DISPLAY_INTERVAL) + cache->pressure_report = 0; + } +} + +/** + * get_page_state_name() - Return the name of a page state. + * + * If the page state is invalid a static string is returned and the invalid state is logged. + * + * Return: A pointer to a static page state name. + */ +static const char * __must_check get_page_state_name(enum vdo_page_buffer_state state) +{ + int result; + static const char * const state_names[] = { + "UDS_FREE", "INCOMING", "FAILED", "RESIDENT", "DIRTY", "OUTGOING" + }; + + STATIC_ASSERT(ARRAY_SIZE(state_names) == PAGE_STATE_COUNT); + + result = ASSERT(state < ARRAY_SIZE(state_names), "Unknown page_state value %d", state); + if (result != UDS_SUCCESS) + return "[UNKNOWN PAGE STATE]"; + + return state_names[state]; +} + +/** + * update_counter() - Update the counter associated with a given state. + * @info: The page info to count. + * @delta: The delta to apply to the counter. + */ +static void update_counter(struct page_info *info, s32 delta) +{ + struct block_map_statistics *stats = &info->cache->stats; + + switch (info->state) { + case PS_FREE: + ADD_ONCE(stats->free_pages, delta); + return; + + case PS_INCOMING: + ADD_ONCE(stats->incoming_pages, delta); + return; + + case PS_OUTGOING: + ADD_ONCE(stats->outgoing_pages, delta); + return; + + case PS_FAILED: + ADD_ONCE(stats->failed_pages, delta); + return; + + case PS_RESIDENT: + ADD_ONCE(stats->clean_pages, delta); + return; + + case PS_DIRTY: + ADD_ONCE(stats->dirty_pages, delta); + return; + + default: + return; + } +} + +/** update_lru() - Update the lru information for an active page. */ +static void update_lru(struct page_info *info) +{ + if (info->cache->lru_list.prev != &info->lru_entry) + list_move_tail(&info->lru_entry, &info->cache->lru_list); +} + +/** + * set_info_state() - Set the state of a page_info and put it on the right list, adjusting + * counters. + */ +static void +set_info_state(struct page_info *info, enum vdo_page_buffer_state new_state) +{ + if (new_state == info->state) + return; + + update_counter(info, -1); + info->state = new_state; + update_counter(info, 1); + + switch (info->state) { + case PS_FREE: + case PS_FAILED: + list_move_tail(&info->state_entry, &info->cache->free_list); + return; + + case PS_OUTGOING: + list_move_tail(&info->state_entry, &info->cache->outgoing_list); + return; + + case PS_DIRTY: + return; + + default: + list_del_init(&info->state_entry); + } +} + +/** set_info_pbn() - Set the pbn for an info, updating the map as needed. */ +static int __must_check set_info_pbn(struct page_info *info, physical_block_number_t pbn) +{ + struct vdo_page_cache *cache = info->cache; + + /* Either the new or the old page number must be NO_PAGE. */ + int result = ASSERT((pbn == NO_PAGE) || (info->pbn == NO_PAGE), + "Must free a page before reusing it."); + if (result != VDO_SUCCESS) + return result; + + if (info->pbn != NO_PAGE) + vdo_int_map_remove(cache->page_map, info->pbn); + + info->pbn = pbn; + + if (pbn != NO_PAGE) { + result = vdo_int_map_put(cache->page_map, pbn, info, true, NULL); + if (result != UDS_SUCCESS) + return result; + } + return VDO_SUCCESS; +} + +/** reset_page_info() - Reset page info to represent an unallocated page. */ +static int reset_page_info(struct page_info *info) +{ + int result; + + result = ASSERT(info->busy == 0, "VDO Page must not be busy"); + if (result != UDS_SUCCESS) + return result; + + result = ASSERT(!vdo_has_waiters(&info->waiting), "VDO Page must not have waiters"); + if (result != UDS_SUCCESS) + return result; + + result = set_info_pbn(info, NO_PAGE); + set_info_state(info, PS_FREE); + list_del_init(&info->lru_entry); + return result; +} + +/** + * find_free_page() - Find a free page. + * + * Return: A pointer to the page info structure (if found), NULL otherwise. + */ +static struct page_info * __must_check find_free_page(struct vdo_page_cache *cache) +{ + struct page_info *info; + + info = list_first_entry_or_null(&cache->free_list, struct page_info, state_entry); + if (info != NULL) + list_del_init(&info->state_entry); + return info; +} + +/** + * find_page() - Find the page info (if any) associated with a given pbn. + * @pbn: The absolute physical block number of the page. + * + * Return: The page info for the page if available, or NULL if not. + */ +static struct page_info * __must_check +find_page(struct vdo_page_cache *cache, physical_block_number_t pbn) +{ + if ((cache->last_found != NULL) && (cache->last_found->pbn == pbn)) + return cache->last_found; + cache->last_found = vdo_int_map_get(cache->page_map, pbn); + return cache->last_found; +} + +/** + * select_lru_page() - Determine which page is least recently used. + * + * Picks the least recently used from among the non-busy entries at the front of each of the lru + * ring. Since whenever we mark a page busy we also put it to the end of the ring it is unlikely + * that the entries at the front are busy unless the queue is very short, but not impossible. + * + * Return: A pointer to the info structure for a relevant page, or NULL if no such page can be + * found. The page can be dirty or resident. + */ +static struct page_info * __must_check select_lru_page(struct vdo_page_cache *cache) +{ + struct page_info *info; + + list_for_each_entry(info, &cache->lru_list, lru_entry) + if ((info->busy == 0) && !is_in_flight(info)) + return info; + + return NULL; +} + +/* ASYNCHRONOUS INTERFACE BEYOND THIS POINT */ + +/** + * complete_with_page() - Helper to complete the VDO Page Completion request successfully. + * @info: The page info representing the result page. + * @vdo_page_comp: The VDO page completion to complete. + */ +static void complete_with_page(struct page_info *info, struct vdo_page_completion *vdo_page_comp) +{ + bool available = vdo_page_comp->writable ? is_present(info) : is_valid(info); + + if (!available) { + uds_log_error_strerror(VDO_BAD_PAGE, + "Requested cache page %llu in state %s is not %s", + (unsigned long long) info->pbn, + get_page_state_name(info->state), + vdo_page_comp->writable ? "present" : + "valid"); + vdo_fail_completion(&vdo_page_comp->completion, VDO_BAD_PAGE); + return; + } + + vdo_page_comp->info = info; + vdo_page_comp->ready = true; + vdo_finish_completion(&vdo_page_comp->completion); +} + +/** + * complete_waiter_with_error() - Complete a page completion with an error code. + * @waiter: The page completion, as a waiter. + * @result_ptr: A pointer to the error code. + * + * Implements waiter_callback. + */ +static void complete_waiter_with_error(struct waiter *waiter, void *result_ptr) +{ + int *result = result_ptr; + + vdo_fail_completion(&page_completion_from_waiter(waiter)->completion, *result); +} + +/** + * complete_waiter_with_page() - Complete a page completion with a page. + * @waiter: The page completion, as a waiter. + * @page_info: The page info to complete with. + * + * Implements waiter_callback. + */ +static void complete_waiter_with_page(struct waiter *waiter, void *page_info) +{ + complete_with_page((struct page_info *) page_info, page_completion_from_waiter(waiter)); +} + +/** + * distribute_page_over_queue() - Complete a queue of VDO page completions with a page result. + * + * Upon completion the queue will be empty. + * + * Return: The number of pages distributed. + */ +static unsigned int distribute_page_over_queue(struct page_info *info, struct wait_queue *queue) +{ + size_t pages; + + update_lru(info); + pages = vdo_count_waiters(queue); + + /* + * Increment the busy count once for each pending completion so that this page does not + * stop being busy until all completions have been processed (VDO-83). + */ + info->busy += pages; + + vdo_notify_all_waiters(queue, complete_waiter_with_page, info); + return pages; +} + +/** + * set_persistent_error() - Set a persistent error which all requests will receive in the future. + * @context: A string describing what triggered the error. + * + * Once triggered, all enqueued completions will get this error. Any future requests will result in + * this error as well. + */ +static void set_persistent_error(struct vdo_page_cache *cache, const char *context, int result) +{ + struct page_info *info; + /* If we're already read-only, there's no need to log. */ + struct vdo *vdo = cache->zone->block_map->vdo; + + if ((result != VDO_READ_ONLY) && !vdo_is_read_only(vdo)) { + uds_log_error_strerror(result, "VDO Page Cache persistent error: %s", context); + vdo_enter_read_only_mode(vdo, result); + } + + assert_on_cache_thread(cache, __func__); + + vdo_notify_all_waiters(&cache->free_waiters, complete_waiter_with_error, &result); + cache->waiter_count = 0; + + for (info = cache->infos; info < cache->infos + cache->page_count; ++info) + vdo_notify_all_waiters(&info->waiting, complete_waiter_with_error, &result); +} + +/** + * validate_completed_page() - Check that a page completion which is being freed to the cache + * referred to a valid page and is in a valid state. + * @writable: Whether a writable page is required. + * + * Return: VDO_SUCCESS if the page was valid, otherwise as error + */ +static int __must_check +validate_completed_page(struct vdo_page_completion *completion, bool writable) +{ + int result; + + result = ASSERT(completion->ready, "VDO Page completion not ready"); + if (result != UDS_SUCCESS) + return result; + + result = ASSERT(completion->info != NULL, "VDO Page Completion must be complete"); + if (result != UDS_SUCCESS) + return result; + + result = ASSERT(completion->info->pbn == completion->pbn, + "VDO Page Completion pbn must be consistent"); + if (result != UDS_SUCCESS) + return result; + + result = ASSERT(is_valid(completion->info), "VDO Page Completion page must be valid"); + if (result != UDS_SUCCESS) + return result; + + if (writable) { + result = ASSERT(completion->writable, "VDO Page Completion is writable"); + if (result != UDS_SUCCESS) + return result; + } + + return VDO_SUCCESS; +} + +static void check_for_drain_complete(struct block_map_zone *zone) +{ + if (vdo_is_state_draining(&zone->state) && + (zone->active_lookups == 0) && + !vdo_has_waiters(&zone->flush_waiters) && + !is_vio_pool_busy(zone->vio_pool) && + (zone->page_cache.outstanding_reads == 0) && + (zone->page_cache.outstanding_writes == 0)) + vdo_finish_draining_with_result(&zone->state, + (vdo_is_read_only(zone->block_map->vdo) ? + VDO_READ_ONLY : VDO_SUCCESS)); +} + +static void enter_zone_read_only_mode(struct block_map_zone *zone, int result) +{ + vdo_enter_read_only_mode(zone->block_map->vdo, result); + + /* + * We are in read-only mode, so we won't ever write any page out. Just take all waiters off + * the queue so the zone can drain. + */ + while (vdo_has_waiters(&zone->flush_waiters)) + vdo_dequeue_next_waiter(&zone->flush_waiters); + + check_for_drain_complete(zone); +} + +static bool __must_check +validate_completed_page_or_enter_read_only_mode(struct vdo_page_completion *completion, + bool writable) +{ + int result = validate_completed_page(completion, writable); + + if (result == VDO_SUCCESS) + return true; + + enter_zone_read_only_mode(completion->info->cache->zone, result); + return false; +} + +/** + * handle_load_error() - Handle page load errors. + * @completion: The page read vio. + */ +static void handle_load_error(struct vdo_completion *completion) +{ + int result = completion->result; + struct page_info *info = completion->parent; + struct vdo_page_cache *cache = info->cache; + + assert_on_cache_thread(cache, __func__); + vio_record_metadata_io_error(as_vio(completion)); + vdo_enter_read_only_mode(cache->zone->block_map->vdo, result); + ADD_ONCE(cache->stats.failed_reads, 1); + set_info_state(info, PS_FAILED); + vdo_notify_all_waiters(&info->waiting, complete_waiter_with_error, &result); + reset_page_info(info); + + /* + * Don't decrement until right before calling check_for_drain_complete() to + * ensure that the above work can't cause the page cache to be freed out from under us. + */ + cache->outstanding_reads--; + check_for_drain_complete(cache->zone); +} + +/** + * page_is_loaded() - Callback used when a page has been loaded. + * @completion: The vio which has loaded the page. Its parent is the page_info. + */ +static void page_is_loaded(struct vdo_completion *completion) +{ + struct page_info *info = completion->parent; + struct vdo_page_cache *cache = info->cache; + nonce_t nonce = info->cache->zone->block_map->nonce; + struct block_map_page *page; + enum block_map_page_validity validity; + + assert_on_cache_thread(cache, __func__); + + page = (struct block_map_page *) get_page_buffer(info); + validity = vdo_validate_block_map_page(page, nonce, info->pbn); + if (validity == VDO_BLOCK_MAP_PAGE_BAD) { + physical_block_number_t pbn = vdo_get_block_map_page_pbn(page); + int result = uds_log_error_strerror(VDO_BAD_PAGE, + "Expected page %llu but got page %llu instead", + (unsigned long long) info->pbn, + (unsigned long long) pbn); + + vdo_continue_completion(completion, result); + return; + } + + if (validity == VDO_BLOCK_MAP_PAGE_INVALID) + vdo_format_block_map_page(page, nonce, info->pbn, false); + + info->recovery_lock = 0; + set_info_state(info, PS_RESIDENT); + distribute_page_over_queue(info, &info->waiting); + + /* + * Don't decrement until right before calling check_for_drain_complete() to + * ensure that the above work can't cause the page cache to be freed out from under us. + */ + cache->outstanding_reads--; + check_for_drain_complete(cache->zone); +} + +/** + * handle_rebuild_read_error() - Handle a read error during a read-only rebuild. + * @completion: The page load completion. + */ +static void handle_rebuild_read_error(struct vdo_completion *completion) +{ + struct page_info *info = completion->parent; + struct vdo_page_cache *cache = info->cache; + + assert_on_cache_thread(cache, __func__); + + /* + * We are doing a read-only rebuild, so treat this as a successful read of an uninitialized + * page. + */ + vio_record_metadata_io_error(as_vio(completion)); + ADD_ONCE(cache->stats.failed_reads, 1); + memset(get_page_buffer(info), 0, VDO_BLOCK_SIZE); + vdo_reset_completion(completion); + page_is_loaded(completion); +} + +static void load_cache_page_endio(struct bio *bio) +{ + struct vio *vio = bio->bi_private; + struct page_info *info = vio->completion.parent; + + continue_vio_after_io(vio, page_is_loaded, info->cache->zone->thread_id); +} + +/** + * launch_page_load() - Begin the process of loading a page. + * + * Return: VDO_SUCCESS or an error code. + */ +static int __must_check launch_page_load(struct page_info *info, physical_block_number_t pbn) +{ + int result; + vdo_action *callback; + struct vdo_page_cache *cache = info->cache; + + assert_io_allowed(cache); + + result = set_info_pbn(info, pbn); + if (result != VDO_SUCCESS) + return result; + + result = ASSERT((info->busy == 0), "Page is not busy before loading."); + if (result != VDO_SUCCESS) + return result; + + set_info_state(info, PS_INCOMING); + cache->outstanding_reads++; + ADD_ONCE(cache->stats.pages_loaded, 1); + callback = (cache->rebuilding ? handle_rebuild_read_error : handle_load_error); + submit_metadata_vio(info->vio, + pbn, + load_cache_page_endio, + callback, + REQ_OP_READ | REQ_PRIO); + return VDO_SUCCESS; +} + +static void write_pages(struct vdo_completion *completion); + +/** handle_flush_error() - Handle errors flushing the layer. */ +static void handle_flush_error(struct vdo_completion *completion) +{ + struct page_info *info = completion->parent; + + vio_record_metadata_io_error(as_vio(completion)); + set_persistent_error(info->cache, "flush failed", completion->result); + write_pages(completion); +} + +static void flush_endio(struct bio *bio) +{ + struct vio *vio = bio->bi_private; + struct page_info *info = vio->completion.parent; + + continue_vio_after_io(vio, write_pages, info->cache->zone->thread_id); +} + +/** save_pages() - Attempt to save the outgoing pages by first flushing the layer. */ +static void save_pages(struct vdo_page_cache *cache) +{ + struct page_info *info; + struct vio *vio; + + if ((cache->pages_in_flush > 0) || (cache->pages_to_flush == 0)) + return; + + assert_io_allowed(cache); + + info = list_first_entry(&cache->outgoing_list, struct page_info, state_entry); + + cache->pages_in_flush = cache->pages_to_flush; + cache->pages_to_flush = 0; + ADD_ONCE(cache->stats.flush_count, 1); + + vio = info->vio; + + /* + * We must make sure that the recovery journal entries that changed these pages were + * successfully persisted, and thus must issue a flush before each batch of pages is + * written to ensure this. + */ + submit_flush_vio(vio, flush_endio, handle_flush_error); +} + +/** + * schedule_page_save() - Add a page to the outgoing list of pages waiting to be saved. + * + * Once in the list, a page may not be used until it has been written out. + */ +static void schedule_page_save(struct page_info *info) +{ + if (info->busy > 0) { + info->write_status = WRITE_STATUS_DEFERRED; + return; + } + + info->cache->pages_to_flush++; + info->cache->outstanding_writes++; + set_info_state(info, PS_OUTGOING); +} + +/** + * launch_page_save() - Add a page to outgoing pages waiting to be saved, and then start saving + * pages if another save is not in progress. + */ +static void launch_page_save(struct page_info *info) +{ + schedule_page_save(info); + save_pages(info->cache); +} + +/** + * completion_needs_page() - Determine whether a given vdo_page_completion (as a waiter) is + * requesting a given page number. + * @context: A pointer to the pbn of the desired page. + * + * Implements waiter_match. + * + * Return: true if the page completion is for the desired page number. + */ +static bool completion_needs_page(struct waiter *waiter, void *context) +{ + physical_block_number_t *pbn = context; + + return (page_completion_from_waiter(waiter)->pbn == *pbn); +} + +/** + * allocate_free_page() - Allocate a free page to the first completion in the waiting queue, and + * any other completions that match it in page number. + */ +static void allocate_free_page(struct page_info *info) +{ + int result; + struct waiter *oldest_waiter; + physical_block_number_t pbn; + struct vdo_page_cache *cache = info->cache; + + assert_on_cache_thread(cache, __func__); + + if (!vdo_has_waiters(&cache->free_waiters)) { + if (cache->stats.cache_pressure > 0) { + uds_log_info("page cache pressure relieved"); + WRITE_ONCE(cache->stats.cache_pressure, 0); + } + return; + } + + result = reset_page_info(info); + if (result != VDO_SUCCESS) { + set_persistent_error(cache, "cannot reset page info", result); + return; + } + + oldest_waiter = vdo_get_first_waiter(&cache->free_waiters); + pbn = page_completion_from_waiter(oldest_waiter)->pbn; + + /* + * Remove all entries which match the page number in question and push them onto the page + * info's wait queue. + */ + vdo_dequeue_matching_waiters(&cache->free_waiters, + completion_needs_page, + &pbn, + &info->waiting); + cache->waiter_count -= vdo_count_waiters(&info->waiting); + + result = launch_page_load(info, pbn); + if (result != VDO_SUCCESS) + vdo_notify_all_waiters(&info->waiting, complete_waiter_with_error, &result); +} + +/** + * discard_a_page() - Begin the process of discarding a page. + * + * If no page is discardable, increments a count of deferred frees so that the next release of a + * page which is no longer busy will kick off another discard cycle. This is an indication that the + * cache is not big enough. + * + * If the selected page is not dirty, immediately allocates the page to the oldest completion + * waiting for a free page. + */ +static void discard_a_page(struct vdo_page_cache *cache) +{ + struct page_info *info = select_lru_page(cache); + + if (info == NULL) { + report_cache_pressure(cache); + return; + } + + if (!is_dirty(info)) { + allocate_free_page(info); + return; + } + + ASSERT_LOG_ONLY(!is_in_flight(info), "page selected for discard is not in flight"); + + ++cache->discard_count; + info->write_status = WRITE_STATUS_DISCARD; + launch_page_save(info); +} + +/** + * discard_page_for_completion() - Helper used to trigger a discard so that the completion can get + * a different page. + */ +static void discard_page_for_completion(struct vdo_page_completion *vdo_page_comp) +{ + struct vdo_page_cache *cache = vdo_page_comp->cache; + + ++cache->waiter_count; + vdo_enqueue_waiter(&cache->free_waiters, &vdo_page_comp->waiter); + discard_a_page(cache); +} + +/** + * discard_page_if_needed() - Helper used to trigger a discard if the cache needs another free + * page. + * @cache: The page cache. + */ +static void discard_page_if_needed(struct vdo_page_cache *cache) +{ + if (cache->waiter_count > cache->discard_count) + discard_a_page(cache); +} + +/** + * write_has_finished() - Inform the cache that a write has finished (possibly with an error). + * @info: The info structure for the page whose write just completed. + * + * Return: true if the page write was a discard. + */ +static bool write_has_finished(struct page_info *info) +{ + bool was_discard = (info->write_status == WRITE_STATUS_DISCARD); + + assert_on_cache_thread(info->cache, __func__); + info->cache->outstanding_writes--; + + info->write_status = WRITE_STATUS_NORMAL; + return was_discard; +} + +/** + * handle_page_write_error() - Handler for page write errors. + * @completion: The page write vio. + */ +static void handle_page_write_error(struct vdo_completion *completion) +{ + int result = completion->result; + struct page_info *info = completion->parent; + struct vdo_page_cache *cache = info->cache; + + vio_record_metadata_io_error(as_vio(completion)); + + /* If we're already read-only, write failures are to be expected. */ + if (result != VDO_READ_ONLY) { + static DEFINE_RATELIMIT_STATE(error_limiter, + DEFAULT_RATELIMIT_INTERVAL, + DEFAULT_RATELIMIT_BURST); + + if (__ratelimit(&error_limiter)) + uds_log_error("failed to write block map page %llu", + (unsigned long long) info->pbn); + } + + set_info_state(info, PS_DIRTY); + ADD_ONCE(cache->stats.failed_writes, 1); + set_persistent_error(cache, "cannot write page", result); + + if (!write_has_finished(info)) + discard_page_if_needed(cache); + + check_for_drain_complete(cache->zone); +} + +static void page_is_written_out(struct vdo_completion *completion); + +static void write_cache_page_endio(struct bio *bio) +{ + struct vio *vio = bio->bi_private; + struct page_info *info = vio->completion.parent; + + continue_vio_after_io(vio, page_is_written_out, info->cache->zone->thread_id); +} + +/** + * page_is_written_out() - Callback used when a page has been written out. + * @completion: The vio which wrote the page. Its parent is a page_info. + */ +static void page_is_written_out(struct vdo_completion *completion) +{ + bool was_discard, reclaimed; + u32 reclamations; + struct page_info *info = completion->parent; + struct vdo_page_cache *cache = info->cache; + struct block_map_page *page = (struct block_map_page *) get_page_buffer(info); + + if (!page->header.initialized) { + page->header.initialized = true; + submit_metadata_vio(info->vio, + info->pbn, + write_cache_page_endio, + handle_page_write_error, + (REQ_OP_WRITE | REQ_PRIO | REQ_PREFLUSH)); + return; + } + + /* Handle journal updates and torn write protection. */ + vdo_release_recovery_journal_block_reference(cache->zone->block_map->journal, + info->recovery_lock, + VDO_ZONE_TYPE_LOGICAL, + cache->zone->zone_number); + info->recovery_lock = 0; + was_discard = write_has_finished(info); + reclaimed = (!was_discard || (info->busy > 0) || vdo_has_waiters(&info->waiting)); + + set_info_state(info, PS_RESIDENT); + + reclamations = distribute_page_over_queue(info, &info->waiting); + ADD_ONCE(cache->stats.reclaimed, reclamations); + + if (was_discard) + cache->discard_count--; + + if (reclaimed) + discard_page_if_needed(cache); + else + allocate_free_page(info); + + check_for_drain_complete(cache->zone); +} + +/** + * write_pages() - Write the batch of pages which were covered by the layer flush which just + * completed. + * @flush_completion: The flush vio. + * + * This callback is registered in save_pages(). + */ +static void write_pages(struct vdo_completion *flush_completion) +{ + struct vdo_page_cache *cache = ((struct page_info *) flush_completion->parent)->cache; + + /* + * We need to cache these two values on the stack since in the error case below, it is + * possible for the last page info to cause the page cache to get freed. Hence once we + * launch the last page, it may be unsafe to dereference the cache [VDO-4724]. + */ + bool has_unflushed_pages = (cache->pages_to_flush > 0); + page_count_t pages_in_flush = cache->pages_in_flush; + + cache->pages_in_flush = 0; + while (pages_in_flush-- > 0) { + struct page_info *info = + list_first_entry(&cache->outgoing_list, struct page_info, state_entry); + + list_del_init(&info->state_entry); + if (vdo_is_read_only(info->cache->zone->block_map->vdo)) { + struct vdo_completion *completion = &info->vio->completion; + + vdo_reset_completion(completion); + completion->callback = page_is_written_out; + completion->error_handler = handle_page_write_error; + vdo_fail_completion(completion, VDO_READ_ONLY); + continue; + } + ADD_ONCE(info->cache->stats.pages_saved, 1); + submit_metadata_vio(info->vio, + info->pbn, + write_cache_page_endio, + handle_page_write_error, + REQ_OP_WRITE | REQ_PRIO); + } + + if (has_unflushed_pages) + /* + * If there are unflushed pages, the cache can't have been freed, so this call is + * safe. + */ + save_pages(cache); +} + +/** + * vdo_release_page_completion() - Release a VDO Page Completion. + * + * The page referenced by this completion (if any) will no longer be held busy by this completion. + * If a page becomes discardable and there are completions awaiting free pages then a new round of + * page discarding is started. + */ +void vdo_release_page_completion(struct vdo_completion *completion) +{ + struct page_info *discard_info = NULL; + struct vdo_page_completion *page_completion = as_vdo_page_completion(completion); + struct vdo_page_cache *cache; + + if (completion->result == VDO_SUCCESS) { + if (!validate_completed_page_or_enter_read_only_mode(page_completion, false)) + return; + + if (--page_completion->info->busy == 0) + discard_info = page_completion->info; + } + + ASSERT_LOG_ONLY((page_completion->waiter.next_waiter == NULL), + "Page being released after leaving all queues"); + + page_completion->info = NULL; + cache = page_completion->cache; + assert_on_cache_thread(cache, __func__); + + if (discard_info != NULL) { + if (discard_info->write_status == WRITE_STATUS_DEFERRED) { + discard_info->write_status = WRITE_STATUS_NORMAL; + launch_page_save(discard_info); + } + /* + * if there are excess requests for pages (that have not already started discards) + * we need to discard some page (which may be this one) + */ + discard_page_if_needed(cache); + } +} + +/** + * load_page_for_completion() - Helper function to load a page as described by a VDO Page + * Completion. + */ +static void +load_page_for_completion(struct page_info *info, struct vdo_page_completion *vdo_page_comp) +{ + int result; + + vdo_enqueue_waiter(&info->waiting, &vdo_page_comp->waiter); + result = launch_page_load(info, vdo_page_comp->pbn); + if (result != VDO_SUCCESS) + vdo_notify_all_waiters(&info->waiting, complete_waiter_with_error, &result); +} + +/** + * vdo_get_page() - Initialize a page completion and get a block map page. + * @page_completion: The vdo_page_completion to initialize. + * @zone: The block map zone of the desired page. + * @pbn: The absolute physical block of the desired page. + * @writable: Whether the page can be modified. + * @parent: The object to notify when the fetch is complete. + * @callback: The notification callback. + * @error_handler: The handler for fetch errors. + * @requeue: Whether we must requeue when notifying the parent. + * + * May cause another page to be discarded (potentially writing a dirty page) and the one nominated + * by the completion to be loaded from disk. When the callback is invoked, the page will be + * resident in the cache and marked busy. All callers must call vdo_release_page_completion() + * when they are done with the page to clear the busy mark. + */ +void vdo_get_page(struct vdo_page_completion *page_completion, + struct block_map_zone *zone, + physical_block_number_t pbn, + bool writable, + void *parent, + vdo_action *callback, + vdo_action *error_handler, + bool requeue) +{ + struct vdo_page_cache *cache = &zone->page_cache; + struct vdo_completion *completion = &page_completion->completion; + struct page_info *info; + + assert_on_cache_thread(cache, __func__); + ASSERT_LOG_ONLY((page_completion->waiter.next_waiter == NULL), + "New page completion was not already on a wait queue"); + + *page_completion = (struct vdo_page_completion) { + .pbn = pbn, + .writable = writable, + .cache = cache, + }; + + vdo_initialize_completion(completion, cache->vdo, VDO_PAGE_COMPLETION); + vdo_prepare_completion(completion, + callback, + error_handler, + cache->zone->thread_id, + parent); + completion->requeue = requeue; + + if (page_completion->writable && vdo_is_read_only(cache->zone->block_map->vdo)) { + vdo_fail_completion(completion, VDO_READ_ONLY); + return; + } + + if (page_completion->writable) + ADD_ONCE(cache->stats.write_count, 1); + else + ADD_ONCE(cache->stats.read_count, 1); + + info = find_page(cache, page_completion->pbn); + if (info != NULL) { + /* The page is in the cache already. */ + if ((info->write_status == WRITE_STATUS_DEFERRED) || + is_incoming(info) || + (is_outgoing(info) && page_completion->writable)) { + /* The page is unusable until it has finished I/O. */ + ADD_ONCE(cache->stats.wait_for_page, 1); + vdo_enqueue_waiter(&info->waiting, &page_completion->waiter); + return; + } + + if (is_valid(info)) { + /* The page is usable. */ + ADD_ONCE(cache->stats.found_in_cache, 1); + if (!is_present(info)) + ADD_ONCE(cache->stats.read_outgoing, 1); + update_lru(info); + ++info->busy; + complete_with_page(info, page_completion); + return; + } + /* Something horrible has gone wrong. */ + ASSERT_LOG_ONLY(false, "Info found in a usable state."); + } + + /* The page must be fetched. */ + info = find_free_page(cache); + if (info != NULL) { + ADD_ONCE(cache->stats.fetch_required, 1); + load_page_for_completion(info, page_completion); + return; + } + + /* The page must wait for a page to be discarded. */ + ADD_ONCE(cache->stats.discard_required, 1); + discard_page_for_completion(page_completion); +} + +/** + * vdo_request_page_write() - Request that a VDO page be written out as soon as it is not busy. + * @completion: The vdo_page_completion containing the page. + */ +void vdo_request_page_write(struct vdo_completion *completion) +{ + struct page_info *info; + struct vdo_page_completion *vdo_page_comp = as_vdo_page_completion(completion); + + if (!validate_completed_page_or_enter_read_only_mode(vdo_page_comp, true)) + return; + + info = vdo_page_comp->info; + set_info_state(info, PS_DIRTY); + launch_page_save(info); +} + +/** + * vdo_get_cached_page() - Get the block map page from a page completion. + * @completion: A vdo page completion whose callback has been called. + * @page_ptr: A pointer to hold the page + * + * Return: VDO_SUCCESS or an error + */ +int vdo_get_cached_page(struct vdo_completion *completion, struct block_map_page **page_ptr) +{ + int result; + struct vdo_page_completion *vpc; + + vpc = as_vdo_page_completion(completion); + result = validate_completed_page(vpc, true); + if (result == VDO_SUCCESS) + *page_ptr = (struct block_map_page *) get_page_buffer(vpc->info); + + return result; +} + +/** + * vdo_invalidate_page_cache() - Invalidate all entries in the VDO page cache. + * + * There must not be any dirty pages in the cache. + * + * Return: A success or error code. + */ +int vdo_invalidate_page_cache(struct vdo_page_cache *cache) +{ + struct page_info *info; + + assert_on_cache_thread(cache, __func__); + + /* Make sure we don't throw away any dirty pages. */ + for (info = cache->infos; info < cache->infos + cache->page_count; info++) { + int result = ASSERT(!is_dirty(info), "cache must have no dirty pages"); + + if (result != VDO_SUCCESS) + return result; + } + + /* Reset the page map by re-allocating it. */ + vdo_free_int_map(UDS_FORGET(cache->page_map)); + return vdo_make_int_map(cache->page_count, 0, &cache->page_map); +} + /** * get_tree_page_by_index() - Get the tree page for a given height and page index. * diff --git a/drivers/md/dm-vdo/block-map.h b/drivers/md/dm-vdo/block-map.h index 2c4d40f21a69..d13e87b79806 100644 --- a/drivers/md/dm-vdo/block-map.h +++ b/drivers/md/dm-vdo/block-map.h @@ -31,6 +31,147 @@ extern const physical_block_number_t VDO_INVALID_PBN; */ typedef u32 vdo_page_generation; +static const physical_block_number_t NO_PAGE = 0xFFFFFFFFFFFFFFFF; +static const struct block_map_entry UNMAPPED_BLOCK_MAP_ENTRY = { + .mapping_state = VDO_MAPPING_STATE_UNMAPPED & 0x0F, + .pbn_high_nibble = 0, + .pbn_low_word = __cpu_to_le32(VDO_ZERO_BLOCK & UINT_MAX), +}; + +/* The VDO Page Cache abstraction. */ +struct vdo_page_cache { + /* the VDO which owns this cache */ + struct vdo *vdo; + /* number of pages in cache */ + page_count_t page_count; + /* number of pages to write in the current batch */ + page_count_t pages_in_batch; + /* Whether the VDO is doing a read-only rebuild */ + bool rebuilding; + + /* array of page information entries */ + struct page_info *infos; + /* raw memory for pages */ + char *pages; + /* cache last found page info */ + struct page_info *last_found; + /* map of page number to info */ + struct int_map *page_map; + /* main LRU list (all infos) */ + struct list_head lru_list; + /* free page list (oldest first) */ + struct list_head free_list; + /* outgoing page list */ + struct list_head outgoing_list; + /* number of read I/O operations pending */ + page_count_t outstanding_reads; + /* number of write I/O operations pending */ + page_count_t outstanding_writes; + /* number of pages covered by the current flush */ + page_count_t pages_in_flush; + /* number of pages waiting to be included in the next flush */ + page_count_t pages_to_flush; + /* number of discards in progress */ + unsigned int discard_count; + /* how many VPCs waiting for free page */ + unsigned int waiter_count; + /* queue of waiters who want a free page */ + struct wait_queue free_waiters; + /* + * Statistics are only updated on the logical zone thread, but are accessed from other + * threads. + */ + struct block_map_statistics stats; + /* counter for pressure reports */ + u32 pressure_report; + /* the block map zone to which this cache belongs */ + struct block_map_zone *zone; +}; + +/* + * The state of a page buffer. If the page buffer is free no particular page is bound to it, + * otherwise the page buffer is bound to particular page whose absolute pbn is in the pbn field. If + * the page is resident or dirty the page data is stable and may be accessed. Otherwise the page is + * in flight (incoming or outgoing) and its data should not be accessed. + * + * @note Update the static data in get_page_state_name() if you change this enumeration. + */ +enum vdo_page_buffer_state { + /* this page buffer is not being used */ + PS_FREE, + /* this page is being read from store */ + PS_INCOMING, + /* attempt to load this page failed */ + PS_FAILED, + /* this page is valid and un-modified */ + PS_RESIDENT, + /* this page is valid and modified */ + PS_DIRTY, + /* this page is being written and should not be used */ + PS_OUTGOING, + /* not a state */ + PAGE_STATE_COUNT, +} __packed; + +/* + * The write status of page + */ +enum vdo_page_write_status { + WRITE_STATUS_NORMAL, + WRITE_STATUS_DISCARD, + WRITE_STATUS_DEFERRED, +} __packed; + +/* Per-page-slot information. */ +struct page_info { + /* Preallocated page struct vio */ + struct vio *vio; + /* back-link for references */ + struct vdo_page_cache *cache; + /* the pbn of the page */ + physical_block_number_t pbn; + /* page is busy (temporarily locked) */ + u16 busy; + /* the write status the page */ + enum vdo_page_write_status write_status; + /* page state */ + enum vdo_page_buffer_state state; + /* queue of completions awaiting this item */ + struct wait_queue waiting; + /* state linked list entry */ + struct list_head state_entry; + /* LRU entry */ + struct list_head lru_entry; + /* + * The earliest recovery journal block containing uncommitted updates to the block map page + * associated with this page_info. A reference (lock) is held on that block to prevent it + * from being reaped. When this value changes, the reference on the old value must be + * released and a reference on the new value must be acquired. + */ + sequence_number_t recovery_lock; +}; + +/* + * A completion awaiting a specific page. Also a live reference into the page once completed, until + * freed. + */ +struct vdo_page_completion { + /* The generic completion */ + struct vdo_completion completion; + /* The cache involved */ + struct vdo_page_cache *cache; + /* The waiter for the pending list */ + struct waiter waiter; + /* The absolute physical block number of the page on disk */ + physical_block_number_t pbn; + /* Whether the page may be modified */ + bool writable; + /* Whether the page is available */ + bool ready; + /* The info structure for the page, only valid when ready */ + struct page_info *info; +}; + struct forest; struct tree_page { @@ -141,6 +282,30 @@ struct block_map { */ typedef int vdo_entry_callback(physical_block_number_t pbn, struct vdo_completion *completion); +static inline struct vdo_page_completion *as_vdo_page_completion(struct vdo_completion *completion) +{ + vdo_assert_completion_type(completion, VDO_PAGE_COMPLETION); + return container_of(completion, struct vdo_page_completion, completion); +} + +void vdo_release_page_completion(struct vdo_completion *completion); + +void vdo_get_page(struct vdo_page_completion *page_completion, + struct block_map_zone *zone, + physical_block_number_t pbn, + bool writable, + void *parent, + vdo_action *callback, + vdo_action *error_handler, + bool requeue); + +void vdo_request_page_write(struct vdo_completion *completion); + +int __must_check vdo_get_cached_page(struct vdo_completion *completion, + struct block_map_page **page_ptr); + +int __must_check vdo_invalidate_page_cache(struct vdo_page_cache *cache); + static inline struct block_map_page * __must_check vdo_as_block_map_page(struct tree_page *tree_page) { -- 2.40.0