| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Unknown | 1311 | 100.00% | 1 | 100.00% |
| Total | 1311 | 1 |
// SPDX-License-Identifier: GPL-2.0-or-later #include <linux/bio.h> #include "cache.h" #include "backing_dev.h" #include "cache_dev.h" #include "dm_pcache.h" static void writeback_ctx_end(struct pcache_cache *cache, int ret) { if (ret && !cache->writeback_ctx.ret) { pcache_dev_err(CACHE_TO_PCACHE(cache), "writeback error: %d", ret); cache->writeback_ctx.ret = ret; } if (!atomic_dec_and_test(&cache->writeback_ctx.pending)) return; if (!cache->writeback_ctx.ret) { backing_dev_flush(cache->backing_dev); mutex_lock(&cache->dirty_tail_lock); cache_pos_advance(&cache->dirty_tail, cache->writeback_ctx.advance); cache_encode_dirty_tail(cache); mutex_unlock(&cache->dirty_tail_lock); } queue_delayed_work(cache_get_wq(cache), &cache->writeback_work, 0); } static void writeback_end_req(struct pcache_backing_dev_req *backing_req, int ret) { struct pcache_cache *cache = backing_req->priv_data; mutex_lock(&cache->writeback_lock); writeback_ctx_end(cache, ret); mutex_unlock(&cache->writeback_lock); } static inline bool is_cache_clean(struct pcache_cache *cache, struct pcache_cache_pos *dirty_tail) { struct dm_pcache *pcache = CACHE_TO_PCACHE(cache); struct pcache_cache_kset_onmedia *kset_onmedia; u32 to_copy; void *addr; int ret; addr = cache_pos_addr(dirty_tail); kset_onmedia = (struct pcache_cache_kset_onmedia *)cache->wb_kset_onmedia_buf; to_copy = min(PCACHE_KSET_ONMEDIA_SIZE_MAX, PCACHE_SEG_SIZE - dirty_tail->seg_off); ret = copy_mc_to_kernel(kset_onmedia, addr, to_copy); if (ret) { pcache_dev_err(pcache, "error to read kset: %d", ret); return true; } /* Check if the magic number matches the expected value */ if (kset_onmedia->magic != PCACHE_KSET_MAGIC) { pcache_dev_debug(pcache, "dirty_tail: %u:%u magic: %llx, not expected: %llx\n", dirty_tail->cache_seg->cache_seg_id, dirty_tail->seg_off, kset_onmedia->magic, PCACHE_KSET_MAGIC); return true; } /* Verify the CRC checksum for data integrity */ if (kset_onmedia->crc != cache_kset_crc(kset_onmedia)) { pcache_dev_debug(pcache, "dirty_tail: %u:%u crc: %x, not expected: %x\n", dirty_tail->cache_seg->cache_seg_id, dirty_tail->seg_off, cache_kset_crc(kset_onmedia), kset_onmedia->crc); return true; } return false; } void cache_writeback_exit(struct pcache_cache *cache) { cancel_delayed_work_sync(&cache->writeback_work); backing_dev_flush(cache->backing_dev); cache_tree_exit(&cache->writeback_key_tree); } int cache_writeback_init(struct pcache_cache *cache) { int ret; ret = cache_tree_init(cache, &cache->writeback_key_tree, 1); if (ret) goto err; atomic_set(&cache->writeback_ctx.pending, 0); /* Queue delayed work to start writeback handling */ queue_delayed_work(cache_get_wq(cache), &cache->writeback_work, 0); return 0; err: return ret; } static void cache_key_writeback(struct pcache_cache *cache, struct pcache_cache_key *key) { struct pcache_backing_dev_req *writeback_req; struct pcache_backing_dev_req_opts writeback_req_opts = { 0 }; struct pcache_cache_pos *pos; void *addr; u32 seg_remain, req_len, done = 0; if (cache_key_clean(key)) return; pos = &key->cache_pos; seg_remain = cache_seg_remain(pos); BUG_ON(seg_remain < key->len); next_req: addr = cache_pos_addr(pos) + done; req_len = backing_dev_req_coalesced_max_len(addr, key->len - done); writeback_req_opts.type = BACKING_DEV_REQ_TYPE_KMEM; writeback_req_opts.gfp_mask = GFP_NOIO; writeback_req_opts.end_fn = writeback_end_req; writeback_req_opts.priv_data = cache; writeback_req_opts.kmem.data = addr; writeback_req_opts.kmem.opf = REQ_OP_WRITE; writeback_req_opts.kmem.len = req_len; writeback_req_opts.kmem.backing_off = key->off + done; writeback_req = backing_dev_req_create(cache->backing_dev, &writeback_req_opts); atomic_inc(&cache->writeback_ctx.pending); backing_dev_req_submit(writeback_req, true); done += req_len; if (done < key->len) goto next_req; } static void cache_wb_tree_writeback(struct pcache_cache *cache, u32 advance) { struct pcache_cache_tree *cache_tree = &cache->writeback_key_tree; struct pcache_cache_subtree *cache_subtree; struct rb_node *node; struct pcache_cache_key *key; u32 i; cache->writeback_ctx.ret = 0; cache->writeback_ctx.advance = advance; atomic_set(&cache->writeback_ctx.pending, 1); for (i = 0; i < cache_tree->n_subtrees; i++) { cache_subtree = &cache_tree->subtrees[i]; node = rb_first(&cache_subtree->root); while (node) { key = CACHE_KEY(node); node = rb_next(node); cache_key_writeback(cache, key); cache_key_delete(key); } } writeback_ctx_end(cache, 0); } static int cache_kset_insert_tree(struct pcache_cache *cache, struct pcache_cache_kset_onmedia *kset_onmedia) { struct pcache_cache_key_onmedia *key_onmedia; struct pcache_cache_subtree *cache_subtree; struct pcache_cache_key *key; int ret; u32 i; /* Iterate through all keys in the kset and write each back to storage */ for (i = 0; i < kset_onmedia->key_num; i++) { key_onmedia = &kset_onmedia->data[i]; key = cache_key_alloc(&cache->writeback_key_tree, GFP_NOIO); ret = cache_key_decode(cache, key_onmedia, key); if (ret) { cache_key_put(key); goto clear_tree; } cache_subtree = get_subtree(&cache->writeback_key_tree, key->off); spin_lock(&cache_subtree->tree_lock); cache_key_insert(&cache->writeback_key_tree, key, true); spin_unlock(&cache_subtree->tree_lock); } return 0; clear_tree: cache_tree_clear(&cache->writeback_key_tree); return ret; } static void last_kset_writeback(struct pcache_cache *cache, struct pcache_cache_kset_onmedia *last_kset_onmedia) { struct dm_pcache *pcache = CACHE_TO_PCACHE(cache); struct pcache_cache_segment *next_seg; pcache_dev_debug(pcache, "last kset, next: %u\n", last_kset_onmedia->next_cache_seg_id); next_seg = &cache->segments[last_kset_onmedia->next_cache_seg_id]; mutex_lock(&cache->dirty_tail_lock); cache->dirty_tail.cache_seg = next_seg; cache->dirty_tail.seg_off = 0; cache_encode_dirty_tail(cache); mutex_unlock(&cache->dirty_tail_lock); } void cache_writeback_fn(struct work_struct *work) { struct pcache_cache *cache = container_of(work, struct pcache_cache, writeback_work.work); struct dm_pcache *pcache = CACHE_TO_PCACHE(cache); struct pcache_cache_pos dirty_tail; struct pcache_cache_kset_onmedia *kset_onmedia; u32 delay; int ret; mutex_lock(&cache->writeback_lock); if (atomic_read(&cache->writeback_ctx.pending)) goto unlock; if (pcache_is_stopping(pcache)) goto unlock; kset_onmedia = (struct pcache_cache_kset_onmedia *)cache->wb_kset_onmedia_buf; mutex_lock(&cache->dirty_tail_lock); cache_pos_copy(&dirty_tail, &cache->dirty_tail); mutex_unlock(&cache->dirty_tail_lock); if (is_cache_clean(cache, &dirty_tail)) { delay = PCACHE_CACHE_WRITEBACK_INTERVAL; goto queue_work; } if (kset_onmedia->flags & PCACHE_KSET_FLAGS_LAST) { last_kset_writeback(cache, kset_onmedia); delay = 0; goto queue_work; } ret = cache_kset_insert_tree(cache, kset_onmedia); if (ret) { delay = PCACHE_CACHE_WRITEBACK_INTERVAL; goto queue_work; } cache_wb_tree_writeback(cache, get_kset_onmedia_size(kset_onmedia)); delay = 0; queue_work: queue_delayed_work(cache_get_wq(cache), &cache->writeback_work, delay); unlock: mutex_unlock(&cache->writeback_lock); }
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