diff options
-rw-r--r-- | Documentation/device-mapper/writecache.txt | 68 | ||||
-rw-r--r-- | drivers/md/Kconfig | 11 | ||||
-rw-r--r-- | drivers/md/Makefile | 1 | ||||
-rw-r--r-- | drivers/md/dm-bio-prison-v1.c | 2 | ||||
-rw-r--r-- | drivers/md/dm-bio-prison-v2.c | 2 | ||||
-rw-r--r-- | drivers/md/dm-cache-target.c | 61 | ||||
-rw-r--r-- | drivers/md/dm-core.h | 38 | ||||
-rw-r--r-- | drivers/md/dm-crypt.c | 26 | ||||
-rw-r--r-- | drivers/md/dm-ioctl.c | 3 | ||||
-rw-r--r-- | drivers/md/dm-kcopyd.c | 3 | ||||
-rw-r--r-- | drivers/md/dm-region-hash.c | 13 | ||||
-rw-r--r-- | drivers/md/dm-thin.c | 5 | ||||
-rw-r--r-- | drivers/md/dm-writecache.c | 2305 | ||||
-rw-r--r-- | drivers/md/dm-zoned-target.c | 2 |
14 files changed, 2466 insertions, 74 deletions
diff --git a/Documentation/device-mapper/writecache.txt b/Documentation/device-mapper/writecache.txt new file mode 100644 index 000000000000..4424fa2c67d7 --- /dev/null +++ b/Documentation/device-mapper/writecache.txt @@ -0,0 +1,68 @@ +The writecache target caches writes on persistent memory or on SSD. It +doesn't cache reads because reads are supposed to be cached in page cache +in normal RAM. + +When the device is constructed, the first sector should be zeroed or the +first sector should contain valid superblock from previous invocation. + +Constructor parameters: +1. type of the cache device - "p" or "s" + p - persistent memory + s - SSD +2. the underlying device that will be cached +3. the cache device +4. block size (4096 is recommended; the maximum block size is the page + size) +5. the number of optional parameters (the parameters with an argument + count as two) + high_watermark n (default: 50) + start writeback when the number of used blocks reach this + watermark + low_watermark x (default: 45) + stop writeback when the number of used blocks drops below + this watermark + writeback_jobs n (default: unlimited) + limit the number of blocks that are in flight during + writeback. Setting this value reduces writeback + throughput, but it may improve latency of read requests + autocommit_blocks n (default: 64 for pmem, 65536 for ssd) + when the application writes this amount of blocks without + issuing the FLUSH request, the blocks are automatically + commited + autocommit_time ms (default: 1000) + autocommit time in milliseconds. The data is automatically + commited if this time passes and no FLUSH request is + received + fua (by default on) + applicable only to persistent memory - use the FUA flag + when writing data from persistent memory back to the + underlying device + nofua + applicable only to persistent memory - don't use the FUA + flag when writing back data and send the FLUSH request + afterwards + - some underlying devices perform better with fua, some + with nofua. The user should test it + +Status: +1. error indicator - 0 if there was no error, otherwise error number +2. the number of blocks +3. the number of free blocks +4. the number of blocks under writeback + +Messages: + flush + flush the cache device. The message returns successfully + if the cache device was flushed without an error + flush_on_suspend + flush the cache device on next suspend. Use this message + when you are going to remove the cache device. The proper + sequence for removing the cache device is: + 1. send the "flush_on_suspend" message + 2. load an inactive table with a linear target that maps + to the underlying device + 3. suspend the device + 4. ask for status and verify that there are no errors + 5. resume the device, so that it will use the linear + target + 6. the cache device is now inactive and it can be deleted diff --git a/drivers/md/Kconfig b/drivers/md/Kconfig index edff083f7c4e..8b8c123cae66 100644 --- a/drivers/md/Kconfig +++ b/drivers/md/Kconfig @@ -334,6 +334,17 @@ config DM_CACHE_SMQ of less memory utilization, improved performance and increased adaptability in the face of changing workloads. +config DM_WRITECACHE + tristate "Writecache target" + depends on BLK_DEV_DM + ---help--- + The writecache target caches writes on persistent memory or SSD. + It is intended for databases or other programs that need extremely + low commit latency. + + The writecache target doesn't cache reads because reads are supposed + to be cached in standard RAM. + config DM_ERA tristate "Era target (EXPERIMENTAL)" depends on BLK_DEV_DM diff --git a/drivers/md/Makefile b/drivers/md/Makefile index 63255f3ebd97..822f4e8753bc 100644 --- a/drivers/md/Makefile +++ b/drivers/md/Makefile @@ -67,6 +67,7 @@ obj-$(CONFIG_DM_ERA) += dm-era.o obj-$(CONFIG_DM_LOG_WRITES) += dm-log-writes.o obj-$(CONFIG_DM_INTEGRITY) += dm-integrity.o obj-$(CONFIG_DM_ZONED) += dm-zoned.o +obj-$(CONFIG_DM_WRITECACHE) += dm-writecache.o ifeq ($(CONFIG_DM_UEVENT),y) dm-mod-objs += dm-uevent.o diff --git a/drivers/md/dm-bio-prison-v1.c b/drivers/md/dm-bio-prison-v1.c index e794e3662fdd..b5389890bbc3 100644 --- a/drivers/md/dm-bio-prison-v1.c +++ b/drivers/md/dm-bio-prison-v1.c @@ -19,8 +19,8 @@ struct dm_bio_prison { spinlock_t lock; - mempool_t cell_pool; struct rb_root cells; + mempool_t cell_pool; }; static struct kmem_cache *_cell_cache; diff --git a/drivers/md/dm-bio-prison-v2.c b/drivers/md/dm-bio-prison-v2.c index f866bc97b032..b092cdc8e1ae 100644 --- a/drivers/md/dm-bio-prison-v2.c +++ b/drivers/md/dm-bio-prison-v2.c @@ -21,8 +21,8 @@ struct dm_bio_prison_v2 { struct workqueue_struct *wq; spinlock_t lock; - mempool_t cell_pool; struct rb_root cells; + mempool_t cell_pool; }; static struct kmem_cache *_cell_cache; diff --git a/drivers/md/dm-cache-target.c b/drivers/md/dm-cache-target.c index 001c71248246..ce14a3d1f609 100644 --- a/drivers/md/dm-cache-target.c +++ b/drivers/md/dm-cache-target.c @@ -371,7 +371,13 @@ struct cache_stats { struct cache { struct dm_target *ti; - struct dm_target_callbacks callbacks; + spinlock_t lock; + + /* + * Fields for converting from sectors to blocks. + */ + int sectors_per_block_shift; + sector_t sectors_per_block; struct dm_cache_metadata *cmd; @@ -402,13 +408,11 @@ struct cache { dm_cblock_t cache_size; /* - * Fields for converting from sectors to blocks. + * Invalidation fields. */ - sector_t sectors_per_block; - int sectors_per_block_shift; + spinlock_t invalidation_lock; + struct list_head invalidation_requests; - spinlock_t lock; - struct bio_list deferred_bios; sector_t migration_threshold; wait_queue_head_t migration_wait; atomic_t nr_allocated_migrations; @@ -419,13 +423,11 @@ struct cache { */ atomic_t nr_io_migrations; + struct bio_list deferred_bios; + struct rw_semaphore quiesce_lock; - /* - * cache_size entries, dirty if set - */ - atomic_t nr_dirty; - unsigned long *dirty_bitset; + struct dm_target_callbacks callbacks; /* * origin_blocks entries, discarded if set. @@ -442,17 +444,27 @@ struct cache { const char **ctr_args; struct dm_kcopyd_client *copier; - struct workqueue_struct *wq; struct work_struct deferred_bio_worker; struct work_struct migration_worker; + struct workqueue_struct *wq; struct delayed_work waker; struct dm_bio_prison_v2 *prison; - struct bio_set bs; - mempool_t migration_pool; + /* + * cache_size entries, dirty if set + */ + unsigned long *dirty_bitset; + atomic_t nr_dirty; - struct dm_cache_policy *policy; unsigned policy_nr_args; + struct dm_cache_policy *policy; + + /* + * Cache features such as write-through. + */ + struct cache_features features; + + struct cache_stats stats; bool need_tick_bio:1; bool sized:1; @@ -461,25 +473,16 @@ struct cache { bool loaded_mappings:1; bool loaded_discards:1; - /* - * Cache features such as write-through. - */ - struct cache_features features; - - struct cache_stats stats; + struct rw_semaphore background_work_lock; - /* - * Invalidation fields. - */ - spinlock_t invalidation_lock; - struct list_head invalidation_requests; + struct batcher committer; + struct work_struct commit_ws; struct io_tracker tracker; - struct work_struct commit_ws; - struct batcher committer; + mempool_t migration_pool; - struct rw_semaphore background_work_lock; + struct bio_set bs; }; struct per_bio_data { diff --git a/drivers/md/dm-core.h b/drivers/md/dm-core.h index f21c5d21bf1b..7d480c930eaf 100644 --- a/drivers/md/dm-core.h +++ b/drivers/md/dm-core.h @@ -31,6 +31,9 @@ struct dm_kobject_holder { struct mapped_device { struct mutex suspend_lock; + struct mutex table_devices_lock; + struct list_head table_devices; + /* * The current mapping (struct dm_table *). * Use dm_get_live_table{_fast} or take suspend_lock for @@ -38,17 +41,14 @@ struct mapped_device { */ void __rcu *map; - struct list_head table_devices; - struct mutex table_devices_lock; - unsigned long flags; - struct request_queue *queue; - int numa_node_id; - - enum dm_queue_mode type; /* Protect queue and type against concurrent access. */ struct mutex type_lock; + enum dm_queue_mode type; + + int numa_node_id; + struct request_queue *queue; atomic_t holders; atomic_t open_count; @@ -56,21 +56,21 @@ struct mapped_device { struct dm_target *immutable_target; struct target_type *immutable_target_type; + char name[16]; struct gendisk *disk; struct dax_device *dax_dev; - char name[16]; - - void *interface_ptr; /* * A list of ios that arrived while we were suspended. */ - atomic_t pending[2]; - wait_queue_head_t wait; struct work_struct work; + wait_queue_head_t wait; + atomic_t pending[2]; spinlock_t deferred_lock; struct bio_list deferred; + void *interface_ptr; + /* * Event handling. */ @@ -84,17 +84,17 @@ struct mapped_device { unsigned internal_suspend_count; /* - * Processing queue (flush) - */ - struct workqueue_struct *wq; - - /* * io objects are allocated from here. */ struct bio_set io_bs; struct bio_set bs; /* + * Processing queue (flush) + */ + struct workqueue_struct *wq; + + /* * freeze/thaw support require holding onto a super block */ struct super_block *frozen_sb; @@ -102,11 +102,11 @@ struct mapped_device { /* forced geometry settings */ struct hd_geometry geometry; - struct block_device *bdev; - /* kobject and completion */ struct dm_kobject_holder kobj_holder; + struct block_device *bdev; + /* zero-length flush that will be cloned and submitted to targets */ struct bio flush_bio; diff --git a/drivers/md/dm-crypt.c b/drivers/md/dm-crypt.c index da02f4d8e4b9..4939fbc34ff2 100644 --- a/drivers/md/dm-crypt.c +++ b/drivers/md/dm-crypt.c @@ -139,25 +139,13 @@ struct crypt_config { struct dm_dev *dev; sector_t start; - /* - * pool for per bio private data, crypto requests, - * encryption requeusts/buffer pages and integrity tags - */ - mempool_t req_pool; - mempool_t page_pool; - mempool_t tag_pool; - unsigned tag_pool_max_sectors; - struct percpu_counter n_allocated_pages; - struct bio_set bs; - struct mutex bio_alloc_lock; - struct workqueue_struct *io_queue; struct workqueue_struct *crypt_queue; - struct task_struct *write_thread; wait_queue_head_t write_thread_wait; + struct task_struct *write_thread; struct rb_root write_tree; char *cipher; @@ -213,6 +201,18 @@ struct crypt_config { unsigned int integrity_iv_size; unsigned int on_disk_tag_size; + /* + * pool for per bio private data, crypto requests, + * encryption requeusts/buffer pages and integrity tags + */ + unsigned tag_pool_max_sectors; + mempool_t tag_pool; + mempool_t req_pool; + mempool_t page_pool; + + struct bio_set bs; + struct mutex bio_alloc_lock; + u8 *authenc_key; /* space for keys in authenc() format (if used) */ u8 key[0]; }; diff --git a/drivers/md/dm-ioctl.c b/drivers/md/dm-ioctl.c index 5acf77de5945..b810ea77e6b1 100644 --- a/drivers/md/dm-ioctl.c +++ b/drivers/md/dm-ioctl.c @@ -1344,7 +1344,8 @@ static int table_load(struct file *filp, struct dm_ioctl *param, size_t param_si goto err_unlock_md_type; } } else if (!is_valid_type(dm_get_md_type(md), dm_table_get_type(t))) { - DMWARN("can't change device type after initial table load."); + DMWARN("can't change device type (old=%u vs new=%u) after initial table load.", + dm_get_md_type(md), dm_table_get_type(t)); r = -EINVAL; goto err_unlock_md_type; } diff --git a/drivers/md/dm-kcopyd.c b/drivers/md/dm-kcopyd.c index ce7efc7434be..3c7547a3c371 100644 --- a/drivers/md/dm-kcopyd.c +++ b/drivers/md/dm-kcopyd.c @@ -45,7 +45,6 @@ struct dm_kcopyd_client { struct dm_io_client *io_client; wait_queue_head_t destroyq; - atomic_t nr_jobs; mempool_t job_pool; @@ -54,6 +53,8 @@ struct dm_kcopyd_client { struct dm_kcopyd_throttle *throttle; + atomic_t nr_jobs; + /* * We maintain three lists of jobs: * diff --git a/drivers/md/dm-region-hash.c b/drivers/md/dm-region-hash.c index abf3521b80a8..c832ec398f02 100644 --- a/drivers/md/dm-region-hash.c +++ b/drivers/md/dm-region-hash.c @@ -63,27 +63,28 @@ struct dm_region_hash { /* hash table */ rwlock_t hash_lock; - mempool_t region_pool; unsigned mask; unsigned nr_buckets; unsigned prime; unsigned shift; struct list_head *buckets; + /* + * If there was a flush failure no regions can be marked clean. + */ + int flush_failure; + unsigned max_recovery; /* Max # of regions to recover in parallel */ spinlock_t region_lock; atomic_t recovery_in_flight; - struct semaphore recovery_count; struct list_head clean_regions; struct list_head quiesced_regions; struct list_head recovered_regions; struct list_head failed_recovered_regions; + struct semaphore recovery_count; - /* - * If there was a flush failure no regions can be marked clean. - */ - int flush_failure; + mempool_t region_pool; void *context; sector_t target_begin; diff --git a/drivers/md/dm-thin.c b/drivers/md/dm-thin.c index 5772756c63c1..6cf9c9364103 100644 --- a/drivers/md/dm-thin.c +++ b/drivers/md/dm-thin.c @@ -240,9 +240,9 @@ struct pool { struct dm_bio_prison *prison; struct dm_kcopyd_client *copier; + struct work_struct worker; struct workqueue_struct *wq; struct throttle throttle; - struct work_struct worker; struct delayed_work waker; struct delayed_work no_space_timeout; @@ -260,7 +260,6 @@ struct pool { struct dm_deferred_set *all_io_ds; struct dm_thin_new_mapping *next_mapping; - mempool_t mapping_pool; process_bio_fn process_bio; process_bio_fn process_discard; @@ -273,6 +272,8 @@ struct pool { process_mapping_fn process_prepared_discard_pt2; struct dm_bio_prison_cell **cell_sort_array; + + mempool_t mapping_pool; }; static enum pool_mode get_pool_mode(struct pool *pool); diff --git a/drivers/md/dm-writecache.c b/drivers/md/dm-writecache.c new file mode 100644 index 000000000000..5961c7794ef3 --- /dev/null +++ b/drivers/md/dm-writecache.c @@ -0,0 +1,2305 @@ +// SPDX-License-Identifier: GPL-2.0 +/* + * Copyright (C) 2018 Red Hat. All rights reserved. + * + * This file is released under the GPL. + */ + +#include <linux/device-mapper.h> +#include <linux/module.h> +#include <linux/init.h> +#include <linux/vmalloc.h> +#include <linux/kthread.h> +#include <linux/dm-io.h> +#include <linux/dm-kcopyd.h> +#include <linux/dax.h> +#include <linux/pfn_t.h> +#include <linux/libnvdimm.h> + +#define DM_MSG_PREFIX "writecache" + +#define HIGH_WATERMARK 50 +#define LOW_WATERMARK 45 +#define MAX_WRITEBACK_JOBS 0 +#define ENDIO_LATENCY 16 +#define WRITEBACK_LATENCY 64 +#define AUTOCOMMIT_BLOCKS_SSD 65536 +#define AUTOCOMMIT_BLOCKS_PMEM 64 +#define AUTOCOMMIT_MSEC 1000 + +#define BITMAP_GRANULARITY 65536 +#if BITMAP_GRANULARITY < PAGE_SIZE +#undef BITMAP_GRANULARITY +#define BITMAP_GRANULARITY PAGE_SIZE +#endif + +#if IS_ENABLED(CONFIG_ARCH_HAS_PMEM_API) && IS_ENABLED(CONFIG_DAX_DRIVER) +#define DM_WRITECACHE_HAS_PMEM +#endif + +#ifdef DM_WRITECACHE_HAS_PMEM +#define pmem_assign(dest, src) \ +do { \ + typeof(dest) uniq = (src); \ + memcpy_flushcache(&(dest), &uniq, sizeof(dest)); \ +} while (0) +#else +#define pmem_assign(dest, src) ((dest) = (src)) +#endif + +#if defined(__HAVE_ARCH_MEMCPY_MCSAFE) && defined(DM_WRITECACHE_HAS_PMEM) +#define DM_WRITECACHE_HANDLE_HARDWARE_ERRORS +#endif + +#define MEMORY_SUPERBLOCK_MAGIC 0x23489321 +#define MEMORY_SUPERBLOCK_VERSION 1 + +struct wc_memory_entry { + __le64 original_sector; + __le64 seq_count; +}; + +struct wc_memory_superblock { + union { + struct { + __le32 magic; + __le32 version; + __le32 block_size; + __le32 pad; + __le64 n_blocks; + __le64 seq_count; + }; + __le64 padding[8]; + }; + struct wc_memory_entry entries[0]; +}; + +struct wc_entry { + struct rb_node rb_node; + struct list_head lru; + unsigned short wc_list_contiguous; + bool write_in_progress +#if BITS_PER_LONG == 64 + :1 +#endif + ; + unsigned long index +#if BITS_PER_LONG == 64 + :47 +#endif + ; +#ifdef DM_WRITECACHE_HANDLE_HARDWARE_ERRORS + uint64_t original_sector; + uint64_t seq_count; +#endif +}; + +#ifdef DM_WRITECACHE_HAS_PMEM +#define WC_MODE_PMEM(wc) ((wc)->pmem_mode) +#define WC_MODE_FUA(wc) ((wc)->writeback_fua) +#else +#define WC_MODE_PMEM(wc) false +#define WC_MODE_FUA(wc) false +#endif +#define WC_MODE_SORT_FREELIST(wc) (!WC_MODE_PMEM(wc)) + +struct dm_writecache { + struct mutex lock; + struct list_head lru; + union { + struct list_head freelist; + struct { + struct rb_root freetree; + struct wc_entry *current_free; + }; + }; + struct rb_root tree; + + size_t freelist_size; + size_t writeback_size; + size_t freelist_high_watermark; + size_t freelist_low_watermark; + + unsigned uncommitted_blocks; + unsigned autocommit_blocks; + unsigned max_writeback_jobs; + + int error; + + unsigned long autocommit_jiffies; + struct timer_list autocommit_timer; + struct wait_queue_head freelist_wait; + + atomic_t bio_in_progress[2]; + struct wait_queue_head bio_in_progress_wait[2]; + + struct dm_target *ti; + struct dm_dev *dev; + struct dm_dev *ssd_dev; + void *memory_map; + uint64_t memory_map_size; + size_t metadata_sectors; + size_t n_blocks; + uint64_t seq_count; + void *block_start; + struct wc_entry *entries; + unsigned block_size; + unsigned char block_size_bits; + + bool pmem_mode:1; + bool writeback_fua:1; + + bool overwrote_committed:1; + bool memory_vmapped:1; + + bool high_wm_percent_set:1; + bool low_wm_percent_set:1; + bool max_writeback_jobs_set:1; + bool autocommit_blocks_set:1; + bool autocommit_time_set:1; + bool writeback_fua_set:1; + bool flush_on_suspend:1; + + unsigned writeback_all; + struct workqueue_struct *writeback_wq; + struct work_struct writeback_work; + struct work_struct flush_work; + + struct dm_io_client *dm_io; + + raw_spinlock_t endio_list_lock; + struct list_head endio_list; + struct task_struct *endio_thread; + + struct task_struct *flush_thread; + struct bio_list flush_list; + + struct dm_kcopyd_client *dm_kcopyd; + unsigned long *dirty_bitmap; + unsigned dirty_bitmap_size; + + struct bio_set bio_set; + mempool_t copy_pool; +}; + +#define WB_LIST_INLINE 16 + +struct writeback_struct { + struct list_head endio_entry; + struct dm_writecache *wc; + struct wc_entry **wc_list; + unsigned wc_list_n; + unsigned page_offset; + struct page *page; + struct wc_entry *wc_list_inline[WB_LIST_INLINE]; + struct bio bio; +}; + +struct copy_struct { + struct list_head endio_entry; + struct dm_writecache *wc; + struct wc_entry *e; + unsigned n_entries; + int error; +}; + +DECLARE_DM_KCOPYD_THROTTLE_WITH_MODULE_PARM(dm_writecache_throttle, + "A percentage of time allocated for data copying"); + +static void wc_lock(struct dm_writecache *wc) +{ + mutex_lock(&wc->lock); +} + +static void wc_unlock(struct dm_writecache *wc) +{ + mutex_unlock(&wc->lock); +} + +#ifdef DM_WRITECACHE_HAS_PMEM +static int persistent_memory_claim(struct dm_writecache *wc) +{ + int r; + loff_t s; + long p, da; + pfn_t pfn; + int id; + struct page **pages; + + wc->memory_vmapped = false; + + if (!wc->ssd_dev->dax_dev) { + r = -EOPNOTSUPP; + goto err1; + } + s = wc->memory_map_size; + p = s >> PAGE_SHIFT; + if (!p) { + r = -EINVAL; + goto err1; + } + if (p != s >> PAGE_SHIFT) { + r = -EOVERFLOW; + goto err1; + } + + id = dax_read_lock(); + + da = dax_direct_access(wc->ssd_dev->dax_dev, 0, p, &wc->memory_map, &pfn); + if (da < 0) { + wc->memory_map = NULL; + r = da; + goto err2; + } + if (!pfn_t_has_page(pfn)) { + wc->memory_map = NULL; + r = -EOPNOTSUPP; + goto err2; + } + if (da != p) { + long i; + wc->memory_map = NULL; + pages = kvmalloc(p * sizeof(struct page *), GFP_KERNEL); + if (!pages) { + r = -ENOMEM; + goto err2; + } + i = 0; + do { + long daa; + void *dummy_addr; + daa = dax_direct_access(wc->ssd_dev->dax_dev, i, p - i, + &dummy_addr, &pfn); + if (daa <= 0) { + r = daa ? daa : -EINVAL; + goto err3; + } + if (!pfn_t_has_page(pfn)) { + r = -EOPNOTSUPP; + goto err3; + } + while (daa-- && i < p) { + pages[i++] = pfn_t_to_page(pfn); + pfn.val++; + } + } while (i < p); + wc->memory_map = vmap(pages, p, VM_MAP, PAGE_KERNEL); + if (!wc->memory_map) { + r = -ENOMEM; + goto err3; + } + kvfree(pages); + wc->memory_vmapped = true; + } + + dax_read_unlock(id); + return 0; +err3: + kvfree(pages); +err2: + dax_read_unlock(id); +err1: + return r; +} +#else +static int persistent_memory_claim(struct dm_writecache *wc) +{ + BUG(); +} +#endif + +static void persistent_memory_release(struct dm_writecache *wc) +{ + if (wc->memory_vmapped) + vunmap(wc->memory_map); +} + +static struct page *persistent_memory_page(void *addr) +{ + if (is_vmalloc_addr(addr)) + return vmalloc_to_page(addr); + else + return virt_to_page(addr); +} + +static unsigned persistent_memory_page_offset(void *addr) +{ + return (unsigned long)addr & (PAGE_SIZE - 1); +} + +static void persistent_memory_flush_cache(void *ptr, size_t size) +{ + if (is_vmalloc_addr(ptr)) + flush_kernel_vmap_range(ptr, size); +} + +static void persistent_memory_invalidate_cache(void *ptr, size_t size) +{ + if (is_vmalloc_addr(ptr)) + invalidate_kernel_vmap_range(ptr, size); +} + +static struct wc_memory_superblock *sb(struct dm_writecache *wc) +{ + return wc->memory_map; +} + +static struct wc_memory_entry *memory_entry(struct dm_writecache *wc, struct wc_entry *e) +{ + if (is_power_of_2(sizeof(struct wc_entry)) && 0) + return &sb(wc)->entries[e - wc->entries]; + else + return &sb(wc)->entries[e->index]; +} + +static void *memory_data(struct dm_writecache *wc, struct wc_entry *e) +{ + return (char *)wc->block_start + (e->index << wc->block_size_bits); +} + +static sector_t cache_sector(struct dm_writecache *wc, struct wc_entry *e) +{ + return wc->metadata_sectors + + ((sector_t)e->index << (wc->block_size_bits - SECTOR_SHIFT)); +} + +static uint64_t read_original_sector(struct dm_writecache *wc, struct wc_entry *e) +{ +#ifdef DM_WRITECACHE_HANDLE_HARDWARE_ERRORS + return e->original_sector; +#else + return le64_to_cpu(memory_entry(wc, e)->original_sector); +#endif +} + +static uint64_t read_seq_count(struct dm_writecache *wc, struct wc_entry *e) +{ +#ifdef DM_WRITECACHE_HANDLE_HARDWARE_ERRORS + return e->seq_count; +#else + return le64_to_cpu(memory_entry(wc, e)->seq_count); +#endif +} + +static void clear_seq_count(struct dm_writecache *wc, struct wc_entry *e) +{ +#ifdef DM_WRITECACHE_HANDLE_HARDWARE_ERRORS + e->seq_count = -1; +#endif + pmem_assign(memory_entry(wc, e)->seq_count, cpu_to_le64(-1)); +} + +static void write_original_sector_seq_count(struct dm_writecache *wc, struct wc_entry *e, + uint64_t original_sector, uint64_t seq_count) +{ + struct wc_memory_entry me; +#ifdef DM_WRITECACHE_HANDLE_HARDWARE_ERRORS + e->original_sector = original_sector; + e->seq_count = seq_count; +#endif + me.original_sector = cpu_to_le64(original_sector); + me.seq_count = cpu_to_le64(seq_count); + pmem_assign(*memory_entry(wc, e), me); +} + +#define writecache_error(wc, err, msg, arg...) \ +do { \ + if (!cmpxchg(&(wc)->error, 0, err)) \ + DMERR(msg, ##arg); \ + wake_up(&(wc)->freelist_wait); \ +} while (0) + +#define writecache_has_error(wc) (unlikely(READ_ONCE((wc)->error))) + +static void writecache_flush_all_metadata(struct dm_writecache *wc) +{ + if (!WC_MODE_PMEM(wc)) + memset(wc->dirty_bitmap, -1, wc->dirty_bitmap_size); +} + +static void writecache_flush_region(struct dm_writecache *wc, void *ptr, size_t size) +{ + if (!WC_MODE_PMEM(wc)) + __set_bit(((char *)ptr - (char *)wc->memory_map) / BITMAP_GRANULARITY, + wc->dirty_bitmap); +} + +static void writecache_disk_flush(struct dm_writecache *wc, struct dm_dev *dev); + +struct io_notify { + struct dm_writecache *wc; + struct completion c; + atomic_t count; +}; + +static void writecache_notify_io(unsigned long error, void *context) +{ + struct io_notify *endio = context; + + if (unlikely(error != 0)) + writecache_error(endio->wc, -EIO, "error writing metadata"); + BUG_ON(atomic_read(&endio->count) <= 0); + if (atomic_dec_and_test(&endio->count)) + complete(&endio->c); +} + +static void ssd_commit_flushed(struct dm_writecache *wc) +{ + struct dm_io_region region; + struct dm_io_request req; + struct io_notify endio = { + wc, + COMPLETION_INITIALIZER_ONSTACK(endio.c), + ATOMIC_INIT(1), + }; + unsigned bitmap_bits = wc->dirty_bitmap_size * BITS_PER_LONG; + unsigned i = 0; + + while (1) { + unsigned j; + i = find_next_bit(wc->dirty_bitmap, bitmap_bits, i); + if (unlikely(i == bitmap_bits)) + break; + j = find_next_zero_bit(wc->dirty_bitmap, bitmap_bits, i); + + region.bdev = wc->ssd_dev->bdev; + region.sector = (sector_t)i * (BITMAP_GRANULARITY >> SECTOR_SHIFT); + region.count = (sector_t)(j - i) * (BITMAP_GRANULARITY >> SECTOR_SHIFT); + + if (unlikely(region.sector >= wc->metadata_sectors)) + break; + if (unlikely(region.sector + region.count > wc->metadata_sectors)) + region.count = wc->metadata_sectors - region.sector; + + atomic_inc(&endio.count); + req.bi_op = REQ_OP_WRITE; + req.bi_op_flags = REQ_SYNC; + req.mem.type = DM_IO_VMA; + req.mem.ptr.vma = (char *)wc->memory_map + (size_t)i * BITMAP_GRANULARITY; + req.client = wc->dm_io; + req.notify.fn = writecache_notify_io; + req.notify.context = &endio; + + /* writing via async dm-io (implied by notify.fn above) won't return an error */ + (void) dm_io(&req, 1, ®ion, NULL); + i = j; + } + + writecache_notify_io(0, &endio); + wait_for_completion_io(&endio.c); + + writecache_disk_flush(wc, wc->ssd_dev); + + memset(wc->dirty_bitmap, 0, wc->dirty_bitmap_size); +} + +static void writecache_commit_flushed(struct dm_writecache *wc) +{ + if (WC_MODE_PMEM(wc)) + wmb(); + else + ssd_commit_flushed(wc); +} + +static void writecache_disk_flush(struct dm_writecache *wc, struct dm_dev *dev) +{ + int r; + struct dm_io_region region; + struct dm_io_request req; + + region.bdev = dev->bdev; + region.sector = 0; + region.count = 0; + req.bi_op = REQ_OP_WRITE; + req.bi_op_flags = REQ_PREFLUSH; + req.mem.type = DM_IO_KMEM; + req.mem.ptr.addr = NULL; + req.client = wc->dm_io; + req.notify.fn = NULL; + + r = dm_io(&req, 1, ®ion, NULL); + if (unlikely(r)) + writecache_error(wc, r, "error flushing metadata: %d", r); +} + +static void writecache_wait_for_ios(struct dm_writecache *wc, int direction) +{ + wait_event(wc->bio_in_progress_wait[direction], + !atomic_read(&wc->bio_in_progress[direction])); +} + +#define WFE_RETURN_FOLLOWING 1 +#define WFE_LOWEST_SEQ 2 + +static struct wc_entry *writecache_find_entry(struct dm_writecache *wc, + uint64_t block, int flags) +{ + struct wc_entry *e; + struct rb_node *node = wc->tree.rb_node; + + if (unlikely(!node)) + return NULL; + + while (1) { + e = container_of(node, struct wc_entry, rb_node); + if (read_original_sector(wc, e) == block) + break; + node = (read_original_sector(wc, e) >= block ? + e->rb_node.rb_left : e->rb_node.rb_right); + if (unlikely(!node)) { + if (!(flags & WFE_RETURN_FOLLOWING)) { + return NULL; + } + if (read_original_sector(wc, e) >= block) { + break; + } else { + node = rb_next(&e->rb_node); + if (unlikely(!node)) { + return NULL; + } + e = container_of(node, struct wc_entry, rb_node); + break; + } + } + } + + while (1) { + struct wc_entry *e2; + if (flags & WFE_LOWEST_SEQ) + node = rb_prev(&e->rb_node); + else + node = rb_next(&e->rb_node); + if (!node) + return e; + e2 = container_of(node, struct wc_entry, rb_node); + if (read_original_sector(wc, e2) != block) + return e; + e = e2; + } +} + +static void writecache_insert_entry(struct dm_writecache *wc, struct wc_entry *ins) +{ + struct wc_entry *e; + struct rb_node **node = &wc->tree.rb_node, *parent = NULL; + + while (*node) { + e = container_of(*node, struct wc_entry, rb_node); + parent = &e->rb_node; + if (read_original_sector(wc, e) > read_original_sector(wc, ins)) + node = &parent->rb_left; + else + node = &parent->rb_right; + } + rb_link_node(&ins->rb_node, parent, node); + rb_insert_color(&ins->rb_node, &wc->tree); + list_add(&ins->lru, &wc->lru); +} + +static void writecache_unlink(struct dm_writecache *wc, struct wc_entry *e) +{ + list_del(&e->lru); + rb_erase(&e->rb_node, &wc->tree); +} + +static void writecache_add_to_freelist(struct dm_writecache *wc, struct wc_entry *e) +{ + if (WC_MODE_SORT_FREELIST(wc)) { + struct rb_node **node = &wc->freetree.rb_node, *parent = NULL; + if (unlikely(!*node)) + wc->current_free = e; + while (*node) { + parent = *node; + if (&e->rb_node < *node) + node = &parent->rb_left; + else + node = &parent->rb_right; + } + rb_link_node(&e->rb_node, parent, node); + rb_insert_color(&e->rb_node, &wc->freetree); + } else { + list_add_tail(&e->lru, &wc->freelist); + } + wc->freelist_size++; +} + +static struct wc_entry *writecache_pop_from_freelist(struct dm_writecache *wc) +{ + struct wc_entry *e; + + if (WC_MODE_SORT_FREELIST(wc)) { + struct rb_node *next; + if (unlikely(!wc->current_free)) + return NULL; + e = wc->current_free; + next = rb_next(&e->rb_node); + rb_erase(&e->rb_node, &wc->freetree); + if (unlikely(!next)) + next = rb_first(&wc->freetree); + wc->current_free = next ? container_of(next, struct wc_entry, rb_node) : NULL; + } else { + if (unlikely(list_empty(&wc->freelist))) + return NULL; + e = container_of(wc->freelist.next, struct wc_entry, lru); + list_del(&e->lru); + } + wc->freelist_size--; + if (unlikely(wc->freelist_size + wc->writeback_size <= wc->freelist_high_watermark)) + queue_work(wc->writeback_wq, &wc->writeback_work); + + return e; +} + +static void writecache_free_entry(struct dm_writecache *wc, struct wc_entry *e) +{ + writecache_unlink(wc, e); + writecache_add_to_freelist(wc, e); + clear_seq_count(wc, e); + writecache_flush_region(wc, memory_entry(wc, e), sizeof(struct wc_memory_entry)); + if (unlikely(waitqueue_active(&wc->freelist_wait))) + wake_up(&wc->freelist_wait); +} + +static void writecache_wait_on_freelist(struct dm_writecache *wc) +{ + DEFINE_WAIT(wait); + + prepare_to_wait(&wc->freelist_wait, &wait, TASK_UNINTERRUPTIBLE); + wc_unlock(wc); + io_schedule(); + finish_wait(&wc->freelist_wait, &wait); + wc_lock(wc); +} + +static void writecache_poison_lists(struct dm_writecache *wc) +{ + /* + * Catch incorrect access to these values while the device is suspended. + */ + memset(&wc->tree, -1, sizeof wc->tree); + wc->lru.next = LIST_POISON1; + wc->lru.prev = LIST_POISON2; + wc->freelist.next = LIST_POISON1; + wc->freelist.prev = LIST_POISON2; +} + +static void writecache_flush_entry(struct dm_writecache *wc, struct wc_entry *e) +{ + writecache_flush_region(wc, memory_entry(wc, e), sizeof(struct wc_memory_entry)); + if (WC_MODE_PMEM(wc)) + writecache_flush_region(wc, memory_data(wc, e), wc->block_size); +} + +static bool writecache_entry_is_committed(struct dm_writecache *wc, struct wc_entry *e) +{ + return read_seq_count(wc, e) < wc->seq_count; +} + +static void writecache_flush(struct dm_writecache *wc) +{ + struct wc_entry *e, *e2; + bool need_flush_after_free; + + wc->uncommitted_blocks = 0; + del_timer(&wc->autocommit_timer); + + if (list_empty(&wc->lru)) + return; + + e = container_of(wc->lru.next, struct wc_entry, lru); + if (writecache_entry_is_committed(wc, e)) { + if (wc->overwrote_committed) { + writecache_wait_for_ios(wc, WRITE); + writecache_disk_flush(wc, wc->ssd_dev); + wc->overwrote_committed = false; + } + return; + } + while (1) { + writecache_flush_entry(wc, e); + if (unlikely(e->lru.next == &wc->lru)) + break; + e2 = container_of(e->lru.next, struct wc_entry, lru); + if (writecache_entry_is_committed(wc, e2)) + break; + e = e2; + cond_resched(); + } + writecache_commit_flushed(wc); + + writecache_wait_for_ios(wc, WRITE); + + wc->seq_count++; + pmem_assign(sb(wc)->seq_count, cpu_to_le64(wc->seq_count)); + writecache_flush_region(wc, &sb(wc)->seq_count, sizeof sb(wc)->seq_count); + writecache_commit_flushed(wc); + + wc->overwrote_committed = false; + + need_flush_after_free = false; + while (1) { + /* Free another committed entry with lower seq-count */ + struct rb_node *rb_node = rb_prev(&e->rb_node); + + if (rb_node) { + e2 = container_of(rb_node, struct wc_entry, rb_node); + if (read_original_sector(wc, e2) == read_original_sector(wc, e) && + likely(!e2->write_in_progress)) { + writecache_free_entry(wc, e2); + need_flush_after_free = true; + } + } + if (unlikely(e->lru.prev == &wc->lru)) + break; + e = container_of(e->lru.prev, struct wc_entry, lru); + cond_resched(); + } + + if (need_flush_after_free) + writecache_commit_flushed(wc); +} + +static void writecache_flush_work(struct work_struct *work) +{ + struct dm_writecache *wc = container_of(work, struct dm_writecache, flush_work); + + wc_lock(wc); + writecache_flush(wc); + wc_unlock(wc); +} + +static void writecache_autocommit_timer(struct timer_list *t) +{ + struct dm_writecache *wc = from_timer(wc, t, autocommit_timer); + if (!writecache_has_error(wc)) + queue_work(wc->writeback_wq, &wc->flush_work); +} + +static void writecache_schedule_autocommit(struct dm_writecache *wc) +{ + if (!timer_pending(&wc->autocommit_timer)) + mod_timer(&wc->autocommit_timer, jiffies + wc->autocommit_jiffies); +} + +static void writecache_discard(struct dm_writecache *wc, sector_t start, sector_t end) +{ + struct wc_entry *e; + bool discarded_something = false; + + e = writecache_find_entry(wc, start, WFE_RETURN_FOLLOWING | WFE_LOWEST_SEQ); + if (unlikely(!e)) + return; + + while (read_original_sector(wc, e) < end) { + struct rb_node *node = rb_next(&e->rb_node); + + if (likely(!e->write_in_progress)) { + if (!discarded_something) { + writecache_wait_for_ios(wc, READ); + writecache_wait_for_ios(wc, WRITE); + discarded_something = true; + } + writecache_free_entry(wc, e); + } + + if (!node) + break; + + e = container_of(node, struct wc_entry, rb_node); + } + + if (discarded_something) + writecache_commit_flushed(wc); +} + +static bool writecache_wait_for_writeback(struct dm_writecache *wc) +{ + if (wc->writeback_size) { + writecache_wait_on_freelist(wc); + return true; + } + return false; +} + +static void writecache_suspend(struct dm_target *ti) +{ + struct dm_writecache *wc = ti->private; + bool flush_on_suspend; + + del_timer_sync(&wc->autocommit_timer); + + wc_lock(wc); + writecache_flush(wc); + flush_on_suspend = wc->flush_on_suspend; + if (flush_on_suspend) { + wc->flush_on_suspend = false; + wc->writeback_all++; + queue_work(wc->writeback_wq, &wc->writeback_work); + } + wc_unlock(wc); + + flush_workqueue(wc->writeback_wq); + + wc_lock(wc); + if (flush_on_suspend) + wc->writeback_all--; + while (writecache_wait_for_writeback(wc)); + + if (WC_MODE_PMEM(wc)) + persistent_memory_flush_cache(wc->memory_map, wc->memory_map_size); + + writecache_poison_lists(wc); + + wc_unlock(wc); +} + +static int writecache_alloc_entries(struct dm_writecache *wc) +{ + size_t b; + + if (wc->entries) + return 0; + wc->entries = vmalloc(sizeof(struct wc_entry) * wc->n_blocks); + if (!wc->entries) + return -ENOMEM; + for (b = 0; b < wc->n_blocks; b++) { + struct wc_entry *e = &wc->entries[b]; + e->index = b; + e->write_in_progress = false; + } + + return 0; +} + +static void writecache_resume(struct dm_target *ti) +{ + struct dm_writecache *wc = ti->private; + size_t b; + bool need_flush = false; + __le64 sb_seq_count; + int r; + + wc_lock(wc); + + if (WC_MODE_PMEM(wc)) + persistent_memory_invalidate_cache(wc->memory_map, wc->memory_map_size); + + wc->tree = RB_ROOT; + INIT_LIST_HEAD(&wc->lru); + if (WC_MODE_SORT_FREELIST(wc)) { + wc->freetree = RB_ROOT; + wc->current_free = NULL; + } else { + INIT_LIST_HEAD(&wc->freelist); + } + wc->freelist_size = 0; + + r = memcpy_mcsafe(&sb_seq_count, &sb(wc)->seq_count, sizeof(uint64_t)); + if (r) { + writecache_error(wc, r, "hardware memory error when reading superblock: %d", r); + sb_seq_count = cpu_to_le64(0); + } + wc->seq_count = le64_to_cpu(sb_seq_count); + +#ifdef DM_WRITECACHE_HANDLE_HARDWARE_ERRORS + for (b = 0; b < wc->n_blocks; b++) { + struct wc_entry *e = &wc->entries[b]; + struct wc_memory_entry wme; + if (writecache_has_error(wc)) { + e->original_sector = -1; + e->seq_count = -1; + continue; + } + r = memcpy_mcsafe(&wme, memory_entry(wc, e), sizeof(struct wc_memory_entry)); + if (r) { + writecache_error(wc, r, "hardware memory error when reading metadata entry %lu: %d", + (unsigned long)b, r); + e->original_sector = -1; + e->seq_count = -1; + } else { + e->original_sector = le64_to_cpu(wme.original_sector); + e->seq_count = le64_to_cpu(wme.seq_count); + } + } +#endif + for (b = 0; b < wc->n_blocks; b++) { + struct wc_entry *e = &wc->entries[b]; + if (!writecache_entry_is_committed(wc, e)) { + if (read_seq_count(wc, e) != -1) { +erase_this: + clear_seq_count(wc, e); + need_flush = true; + } + writecache_add_to_freelist(wc, e); + } else { + struct wc_entry *old; + + old = writecache_find_entry(wc, read_original_sector(wc, e), 0); + if (!old) { + writecache_insert_entry(wc, e); + } else { + if (read_seq_count(wc, old) == read_seq_count(wc, e)) { + writecache_error(wc, -EINVAL, + "two identical entries, position %llu, sector %llu, sequence %llu", + (unsigned long long)b, (unsigned long long)read_original_sector(wc, e), + (unsigned long long)read_seq_count(wc, e)); + } + if (read_seq_count(wc, old) > read_seq_count(wc, e)) { + goto erase_this; + } else { + writecache_free_entry(wc, old); + writecache_insert_entry(wc, e); + need_flush = true; + } + } + } + cond_resched(); + } + + if (need_flush) { + writecache_flush_all_metadata(wc); + writecache_commit_flushed(wc); + } + + wc_unlock(wc); +} + +static int process_flush_mesg(unsigned argc, char **argv, struct dm_writecache *wc) +{ + if (argc != 1) + return -EINVAL; + + wc_lock(wc); + if (dm_suspended(wc->ti)) { + wc_unlock(wc); + return -EBUSY; + } + if (writecache_has_error(wc)) { + wc_unlock(wc); + return -EIO; + } + + writecache_flush(wc); + wc->writeback_all++; + queue_work(wc->writeback_wq, &wc->writeback_work); + wc_unlock(wc); + + flush_workqueue(wc->writeback_wq); + + wc_lock(wc); + wc->writeback_all--; + if (writecache_has_error(wc)) { + wc_unlock(wc); + return -EIO; + } + wc_unlock(wc); + + return 0; +} + +static int process_flush_on_suspend_mesg(unsigned argc, char **argv, struct dm_writecache *wc) +{ + if (argc != 1) + return -EINVAL; + + wc_lock(wc); + wc->flush_on_suspend = true; + wc_unlock(wc); + + return 0; +} + +static int writecache_message(struct dm_target *ti, unsigned argc, char **argv, + char *result, unsigned maxlen) +{ + int r = -EINVAL; + struct dm_writecache *wc = ti->private; + + if (!strcasecmp(argv[0], "flush")) + r = process_flush_mesg(argc, argv, wc); + else if (!strcasecmp(argv[0], "flush_on_suspend")) + r = process_flush_on_suspend_mesg(argc, argv, wc); + else + DMERR("unrecognised message received: %s", argv[0]); + + return r; +} + +static void bio_copy_block(struct dm_writecache *wc, struct bio *bio, void *data) +{ + void *buf; + unsigned long flags; + unsigned size; + int rw = bio_data_dir(bio); + unsigned remaining_size = wc->block_size; + + do { + struct bio_vec bv = bio_iter_iovec(bio, bio->bi_iter); + buf = bvec_kmap_irq(&bv, &flags); + size = bv.bv_len; + if (unlikely(size > remaining_size)) + size = remaining_size; + + if (rw == READ) { + int r; + r = memcpy_mcsafe(buf, data, size); + flush_dcache_page(bio_page(bio)); + if (unlikely(r)) { + writecache_error(wc, r, "hardware memory error when reading data: %d", r); + bio->bi_status = BLK_STS_IOERR; + } + } else { + flush_dcache_page(bio_page(bio)); + memcpy_flushcache(data, buf, size); + } + + bvec_kunmap_irq(buf, &flags); + + data = (char *)data + size; + remaining_size -= size; + bio_advance(bio, size); + } while (unlikely(remaining_size)); +} + +static int writecache_flush_thread(void *data) +{ + struct dm_writecache *wc = data; + + while (1) { + struct bio *bio; + + wc_lock(wc); + bio = bio_list_pop(&wc->flush_list); + if (!bio) { + set_current_state(TASK_INTERRUPTIBLE); + wc_unlock(wc); + + if (unlikely(kthread_should_stop())) { + set_current_state(TASK_RUNNING); + break; + } + + schedule(); + continue; + } + + if (bio_op(bio) == REQ_OP_DISCARD) { + writecache_discard(wc, bio->bi_iter.bi_sector, + bio_end_sector(bio)); + wc_unlock(wc); + bio_set_dev(bio, wc->dev->bdev); + generic_make_request(bio); + } else { + writecache_flush(wc); + wc_unlock(wc); + if (writecache_has_error(wc)) + bio->bi_status = BLK_STS_IOERR; + bio_endio(bio); + } + } + + return 0; +} + +static void writecache_offload_bio(struct dm_writecache *wc, struct bio *bio) +{ + if (bio_list_empty(&wc->flush_list)) + wake_up_process(wc->flush_thread); + bio_list_add(&wc->flush_list, bio); +} + +static int writecache_map(struct dm_target *ti, struct bio *bio) +{ + struct wc_entry *e; + struct dm_writecache *wc = ti->private; + + bio->bi_private = NULL; + + wc_lock(wc); + + if (unlikely(bio->bi_opf & REQ_PREFLUSH)) { + if (writecache_has_error(wc)) + goto unlock_error; + if (WC_MODE_PMEM(wc)) { + writecache_flush(wc); + if (writecache_has_error(wc)) + goto unlock_error; + goto unlock_submit; + } else { + writecache_offload_bio(wc, bio); + goto unlock_return; + } + } + + bio->bi_iter.bi_sector = dm_target_offset(ti, bio->bi_iter.bi_sector); + + if (unlikely((((unsigned)bio->bi_iter.bi_sector | bio_sectors(bio)) & + (wc->block_size / 512 - 1)) != 0)) { + DMERR("I/O is not aligned, sector %llu, size %u, block size %u", + (unsigned long long)bio->bi_iter.bi_sector, + bio->bi_iter.bi_size, wc->block_size); + goto unlock_error; + } + + if (unlikely(bio_op(bio) == REQ_OP_DISCARD)) { + if (writecache_has_error(wc)) + goto unlock_error; + if (WC_MODE_PMEM(wc)) { + writecache_discard(wc, bio->bi_iter.bi_sector, bio_end_sector(bio)); + goto unlock_remap_origin; + } else { + writecache_offload_bio(wc, bio); + goto unlock_return; + } + } + + if (bio_data_dir(bio) == READ) { +read_next_block: + e = writecache_find_entry(wc, bio->bi_iter.bi_sector, WFE_RETURN_FOLLOWING); + if (e && read_original_sector(wc, e) == bio->bi_iter.bi_sector) { + if (WC_MODE_PMEM(wc)) { + bio_copy_block(wc, bio, memory_data(wc, e)); + if (bio->bi_iter.bi_size) + goto read_next_block; + goto unlock_submit; + } else { + dm_accept_partial_bio(bio, wc->block_size >> SECTOR_SHIFT); + bio_set_dev(bio, wc->ssd_dev->bdev); + bio->bi_iter.bi_sector = cache_sector(wc, e); + if (!writecache_entry_is_committed(wc, e)) + writecache_wait_for_ios(wc, WRITE); + goto unlock_remap; + } + } else { + if (e) { + sector_t next_boundary = + read_original_sector(wc, e) - bio->bi_iter.bi_sector; + if (next_boundary < bio->bi_iter.bi_size >> SECTOR_SHIFT) { + dm_accept_partial_bio(bio, next_boundary); + } + } + goto unlock_remap_origin; + } + } else { + do { + if (writecache_has_error(wc)) + goto unlock_error; + e = writecache_find_entry(wc, bio->bi_iter.bi_sector, 0); + if (e) { + if (!writecache_entry_is_committed(wc, e)) + goto bio_copy; + if (!WC_MODE_PMEM(wc) && !e->write_in_progress) { + wc->overwrote_committed = true; + goto bio_copy; + } + } + e = writecache_pop_from_freelist(wc); + if (unlikely(!e)) { + writecache_wait_on_freelist(wc); + continue; + } + write_original_sector_seq_count(wc, e, bio->bi_iter.bi_sector, wc->seq_count); + writecache_insert_entry(wc, e); + wc->uncommitted_blocks++; +bio_copy: + if (WC_MODE_PMEM(wc)) { + bio_copy_block(wc, bio, memory_data(wc, e)); + } else { + dm_accept_partial_bio(bio, wc->block_size >> SECTOR_SHIFT); + bio_set_dev(bio, wc->ssd_dev->bdev); + bio->bi_iter.bi_sector = cache_sector(wc, e); + if (unlikely(wc->uncommitted_blocks >= wc->autocommit_blocks)) { + wc->uncommitted_blocks = 0; + queue_work(wc->writeback_wq, &wc->flush_work); + } else { + writecache_schedule_autocommit(wc); + } + goto unlock_remap; + } + } while (bio->bi_iter.bi_size); + + if (unlikely(wc->uncommitted_blocks >= wc->autocommit_blocks)) + writecache_flush(wc); + else + writecache_schedule_autocommit(wc); + goto unlock_submit; + } + +unlock_remap_origin: + bio_set_dev(bio, wc->dev->bdev); + wc_unlock(wc); + return DM_MAPIO_REMAPPED; + +unlock_remap: + /* make sure that writecache_end_io decrements bio_in_progress: */ + bio->bi_private = (void *)1; + atomic_inc(&wc->bio_in_progress[bio_data_dir(bio)]); + wc_unlock(wc); + return DM_MAPIO_REMAPPED; + +unlock_submit: + wc_unlock(wc); + bio_endio(bio); + return DM_MAPIO_SUBMITTED; + +unlock_return: + wc_unlock(wc); + return DM_MAPIO_SUBMITTED; + +unlock_error: + wc_unlock(wc); + bio_io_error(bio); + return DM_MAPIO_SUBMITTED; +} + +static int writecache_end_io(struct dm_target *ti, struct bio *bio, blk_status_t *status) +{ + struct dm_writecache *wc = ti->private; + + if (bio->bi_private != NULL) { + int dir = bio_data_dir(bio); + if (atomic_dec_and_test(&wc->bio_in_progress[dir])) + if (unlikely(waitqueue_active(&wc->bio_in_progress_wait[dir]))) + wake_up(&wc->bio_in_progress_wait[dir]); + } + return 0; +} + +static int writecache_iterate_devices(struct dm_target *ti, + iterate_devices_callout_fn fn, void *data) +{ + struct dm_writecache *wc = ti->private; + + return fn(ti, wc->dev, 0, ti->len, data); +} + +static void writecache_io_hints(struct dm_target *ti, struct queue_limits *limits) +{ + struct dm_writecache *wc = ti->private; + + if (limits->logical_block_size < wc->block_size) + limits->logical_block_size = wc->block_size; + + if (limits->physical_block_size < wc->block_size) + limits->physical_block_size = wc->block_size; + + if (limits->io_min < wc->block_size) + limits->io_min = wc->block_size; +} + + +static void writecache_writeback_endio(struct bio *bio) +{ + struct writeback_struct *wb = container_of(bio, struct writeback_struct, bio); + struct dm_writecache *wc = wb->wc; + unsigned long flags; + + raw_spin_lock_irqsave(&wc->endio_list_lock, flags); + if (unlikely(list_empty(&wc->endio_list))) + wake_up_process(wc->endio_thread); + list_add_tail(&wb->endio_entry, &wc->endio_list); + raw_spin_unlock_irqrestore(&wc->endio_list_lock, flags); +} + +static void writecache_copy_endio(int read_err, unsigned long write_err, void *ptr) +{ + struct copy_struct *c = ptr; + struct dm_writecache *wc = c->wc; + + c->error = likely(!(read_err | write_err)) ? 0 : -EIO; + + raw_spin_lock_irq(&wc->endio_list_lock); + if (unlikely(list_empty(&wc->endio_list))) + wake_up_process(wc->endio_thread); + list_add_tail(&c->endio_entry, &wc->endio_list); + raw_spin_unlock_irq(&wc->endio_list_lock); +} + +static void __writecache_endio_pmem(struct dm_writecache *wc, struct list_head *list) +{ + unsigned i; + struct writeback_struct *wb; + struct wc_entry *e; + unsigned long n_walked = 0; + + do { + wb = list_entry(list->next, struct writeback_struct, endio_entry); + list_del(&wb->endio_entry); + + if (unlikely(wb->bio.bi_status != BLK_STS_OK)) + writecache_error(wc, blk_status_to_errno(wb->bio.bi_status), + "write error %d", wb->bio.bi_status); + i = 0; + do { + e = wb->wc_list[i]; + BUG_ON(!e->write_in_progress); + e->write_in_progress = false; + INIT_LIST_HEAD(&e->lru); + if (!writecache_has_error(wc)) + writecache_free_entry(wc, e); + BUG_ON(!wc->writeback_size); + wc->writeback_size--; + n_walked++; + if (unlikely(n_walked >= ENDIO_LATENCY)) { + writecache_commit_flushed(wc); + wc_unlock(wc); + wc_lock(wc); + n_walked = 0; + } + } while (++i < wb->wc_list_n); + + if (wb->wc_list != wb->wc_list_inline) + kfree(wb->wc_list); + bio_put(&wb->bio); + } while (!list_empty(list)); +} + +static void __writecache_endio_ssd(struct dm_writecache *wc, struct list_head *list) +{ + struct copy_struct *c; + struct wc_entry *e; + + do { + c = list_entry(list->next, struct copy_struct, endio_entry); + list_del(&c->endio_entry); + + if (unlikely(c->error)) + writecache_error(wc, c->error, "copy error"); + + e = c->e; + do { + BUG_ON(!e->write_in_progress); + e->write_in_progress = false; + INIT_LIST_HEAD(&e->lru); + if (!writecache_has_error(wc)) + writecache_free_entry(wc, e); + + BUG_ON(!wc->writeback_size); + wc->writeback_size--; + e++; + } while (--c->n_entries); + mempool_free(c, &wc->copy_pool); + } while (!list_empty(list)); +} + +static int writecache_endio_thread(void *data) +{ + struct dm_writecache *wc = data; + + while (1) { + struct list_head list; + + raw_spin_lock_irq(&wc->endio_list_lock); + if (!list_empty(&wc->endio_list)) + goto pop_from_list; + set_current_state(TASK_INTERRUPTIBLE); + raw_spin_unlock_irq(&wc->endio_list_lock); + + if (unlikely(kthread_should_stop())) { + set_current_state(TASK_RUNNING); + break; + } + + schedule(); + + continue; + +pop_from_list: + list = wc->endio_list; + list.next->prev = list.prev->next = &list; + INIT_LIST_HEAD(&wc->endio_list); + raw_spin_unlock_irq(&wc->endio_list_lock); + + if (!WC_MODE_FUA(wc)) + writecache_disk_flush(wc, wc->dev); + + wc_lock(wc); + + if (WC_MODE_PMEM(wc)) { + __writecache_endio_pmem(wc, &list); + } else { + __writecache_endio_ssd(wc, &list); + writecache_wait_for_ios(wc, READ); + } + + writecache_commit_flushed(wc); + + wc_unlock(wc); + } + + return 0; +} + +static bool wc_add_block(struct writeback_struct *wb, struct wc_entry *e, gfp_t gfp) +{ + struct dm_writecache *wc = wb->wc; + unsigned block_size = wc->block_size; + void *address = memory_data(wc, e); + + persistent_memory_flush_cache(address, block_size); + return bio_add_page(&wb->bio, persistent_memory_page(address), + block_size, persistent_memory_page_offset(address)) != 0; +} + +struct writeback_list { + struct list_head list; + size_t size; +}; + +static void __writeback_throttle(struct dm_writecache *wc, struct writeback_list *wbl) +{ + if (unlikely(wc->max_writeback_jobs)) { + if (READ_ONCE(wc->writeback_size) - wbl->size >= wc->max_writeback_jobs) { + wc_lock(wc); + while (wc->writeback_size - wbl->size >= wc->max_writeback_jobs) + writecache_wait_on_freelist(wc); + wc_unlock(wc); + } + } + cond_resched(); +} + +static void __writecache_writeback_pmem(struct dm_writecache *wc, struct writeback_list *wbl) +{ + struct wc_entry *e, *f; + struct bio *bio; + struct writeback_struct *wb; + unsigned max_pages; + + while (wbl->size) { + wbl->size--; + e = container_of(wbl->list.prev, struct wc_entry, lru); + list_del(&e->lru); + + max_pages = e->wc_list_contiguous; + + bio = bio_alloc_bioset(GFP_NOIO, max_pages, &wc->bio_set); + wb = container_of(bio, struct writeback_struct, bio); + wb->wc = wc; + wb->bio.bi_end_io = writecache_writeback_endio; + bio_set_dev(&wb->bio, wc->dev->bdev); + wb->bio.bi_iter.bi_sector = read_original_sector(wc, e); + wb->page_offset = PAGE_SIZE; + if (max_pages <= WB_LIST_INLINE || + unlikely(!(wb->wc_list = kmalloc(max_pages * sizeof(struct wc_entry *), + GFP_NOIO | __GFP_NORETRY | + __GFP_NOMEMALLOC | __GFP_NOWARN)))) { + wb->wc_list = wb->wc_list_inline; + max_pages = WB_LIST_INLINE; + } + + BUG_ON(!wc_add_block(wb, e, GFP_NOIO)); + + wb->wc_list[0] = e; + wb->wc_list_n = 1; + + while (wbl->size && wb->wc_list_n < max_pages) { + f = container_of(wbl->list.prev, struct wc_entry, lru); + if (read_original_sector(wc, f) != + read_original_sector(wc, e) + (wc->block_size >> SECTOR_SHIFT)) + break; + if (!wc_add_block(wb, f, GFP_NOWAIT | __GFP_NOWARN)) + break; + wbl->size--; + list_del(&f->lru); + wb->wc_list[wb->wc_list_n++] = f; + e = f; + } + bio_set_op_attrs(&wb->bio, REQ_OP_WRITE, WC_MODE_FUA(wc) * REQ_FUA); + if (writecache_has_error(wc)) { + bio->bi_status = BLK_STS_IOERR; + bio_endio(&wb->bio); + } else { + submit_bio(&wb->bio); + } + + __writeback_throttle(wc, wbl); + } +} + +static void __writecache_writeback_ssd(struct dm_writecache *wc, struct writeback_list *wbl) +{ + struct wc_entry *e, *f; + struct dm_io_region from, to; + struct copy_struct *c; + + while (wbl->size) { + unsigned n_sectors; + + wbl->size--; + e = container_of(wbl->list.prev, struct wc_entry, lru); + list_del(&e->lru); + + n_sectors = e->wc_list_contiguous << (wc->block_size_bits - SECTOR_SHIFT); + + from.bdev = wc->ssd_dev->bdev; + from.sector = cache_sector(wc, e); + from.count = n_sectors; + to.bdev = wc->dev->bdev; + to.sector = read_original_sector(wc, e); + to.count = n_sectors; + + c = mempool_alloc(&wc->copy_pool, GFP_NOIO); + c->wc = wc; + c->e = e; + c->n_entries = e->wc_list_contiguous; + + while ((n_sectors -= wc->block_size >> SECTOR_SHIFT)) { + wbl->size--; + f = container_of(wbl->list.prev, struct wc_entry, lru); + BUG_ON(f != e + 1); + list_del(&f->lru); + e = f; + } + + dm_kcopyd_copy(wc->dm_kcopyd, &from, 1, &to, 0, writecache_copy_endio, c); + + __writeback_throttle(wc, wbl); + } +} + +static void writecache_writeback(struct work_struct *work) +{ + struct dm_writecache *wc = container_of(work, struct dm_writecache, writeback_work); + struct blk_plug plug; + struct wc_entry *e, *f, *g; + struct rb_node *node, *next_node; + struct list_head skipped; + struct writeback_list wbl; + unsigned long n_walked; + + wc_lock(wc); +restart: + if (writecache_has_error(wc)) { + wc_unlock(wc); + return; + } + + if (unlikely(wc->writeback_all)) { + if (writecache_wait_for_writeback(wc)) + goto restart; + } + + if (wc->overwrote_committed) { + writecache_wait_for_ios(wc, WRITE); + } + + n_walked = 0; + INIT_LIST_HEAD(&skipped); + INIT_LIST_HEAD(&wbl.list); + wbl.size = 0; + while (!list_empty(&wc->lru) && + (wc->writeback_all || + wc->freelist_size + wc->writeback_size <= wc->freelist_low_watermark)) { + + n_walked++; + if (unlikely(n_walked > WRITEBACK_LATENCY) && + likely(!wc->writeback_all) && likely(!dm_suspended(wc->ti))) { + queue_work(wc->writeback_wq, &wc->writeback_work); + break; + } + + e = container_of(wc->lru.prev, struct wc_entry, lru); + BUG_ON(e->write_in_progress); + if (unlikely(!writecache_entry_is_committed(wc, e))) { + writecache_flush(wc); + } + node = rb_prev(&e->rb_node); + if (node) { + f = container_of(node, struct wc_entry, rb_node); + if (unlikely(read_original_sector(wc, f) == + read_original_sector(wc, e))) { + BUG_ON(!f->write_in_progress); + list_del(&e->lru); + list_add(&e->lru, &skipped); + cond_resched(); + continue; + } + } + wc->writeback_size++; + list_del(&e->lru); + list_add(&e->lru, &wbl.list); + wbl.size++; + e->write_in_progress = true; + e->wc_list_contiguous = 1; + + f = e; + + while (1) { + next_node = rb_next(&f->rb_node); + if (unlikely(!next_node)) + break; + g = container_of(next_node, struct wc_entry, rb_node); + if (read_original_sector(wc, g) == + read_original_sector(wc, f)) { + f = g; + continue; + } + if (read_original_sector(wc, g) != + read_original_sector(wc, f) + (wc->block_size >> SECTOR_SHIFT)) + break; + if (unlikely(g->write_in_progress)) + break; + if (unlikely(!writecache_entry_is_committed(wc, g))) + break; + + if (!WC_MODE_PMEM(wc)) { + if (g != f + 1) + break; + } + + n_walked++; + //if (unlikely(n_walked > WRITEBACK_LATENCY) && likely(!wc->writeback_all)) + // break; + + wc->writeback_size++; + list_del(&g->lru); + list_add(&g->lru, &wbl.list); + wbl.size++; + g->write_in_progress = true; + g->wc_list_contiguous = BIO_MAX_PAGES; + f = g; + e->wc_list_contiguous++; + if (unlikely(e->wc_list_contiguous == BIO_MAX_PAGES)) + break; + } + cond_resched(); + } + + if (!list_empty(&skipped)) { + list_splice_tail(&skipped, &wc->lru); + /* + * If we didn't do any progress, we must wait until some + * writeback finishes to avoid burning CPU in a loop + */ + if (unlikely(!wbl.size)) + writecache_wait_for_writeback(wc); + } + + wc_unlock(wc); + + blk_start_plug(&plug); + + if (WC_MODE_PMEM(wc)) + __writecache_writeback_pmem(wc, &wbl); + else + __writecache_writeback_ssd(wc, &wbl); + + blk_finish_plug(&plug); + + if (unlikely(wc->writeback_all)) { + wc_lock(wc); + while (writecache_wait_for_writeback(wc)); + wc_unlock(wc); + } +} + +static int calculate_memory_size(uint64_t device_size, unsigned block_size, + size_t *n_blocks_p, size_t *n_metadata_blocks_p) +{ + uint64_t n_blocks, offset; + struct wc_entry e; + + n_blocks = device_size; + do_div(n_blocks, block_size + sizeof(struct wc_memory_entry)); + + while (1) { + if (!n_blocks) + return -ENOSPC; + /* Verify the following entries[n_blocks] won't overflow */ + if (n_blocks >= ((size_t)-sizeof(struct wc_memory_superblock) / + sizeof(struct wc_memory_entry))) + return -EFBIG; + offset = offsetof(struct wc_memory_superblock, entries[n_blocks]); + offset = (offset + block_size - 1) & ~(uint64_t)(block_size - 1); + if (offset + n_blocks * block_size <= device_size) + break; + n_blocks--; + } + + /* check if the bit field overflows */ + e.index = n_blocks; + if (e.index != n_blocks) + return -EFBIG; + + if (n_blocks_p) + *n_blocks_p = n_blocks; + if (n_metadata_blocks_p) + *n_metadata_blocks_p = offset >> __ffs(block_size); + return 0; +} + +static int init_memory(struct dm_writecache *wc) +{ + size_t b; + int r; + + r = calculate_memory_size(wc->memory_map_size, wc->block_size, &wc->n_blocks, NULL); + if (r) + return r; + + r = writecache_alloc_entries(wc); + if (r) + return r; + + for (b = 0; b < ARRAY_SIZE(sb(wc)->padding); b++) + pmem_assign(sb(wc)->padding[b], cpu_to_le64(0)); + pmem_assign(sb(wc)->version, cpu_to_le32(MEMORY_SUPERBLOCK_VERSION)); + pmem_assign(sb(wc)->block_size, cpu_to_le32(wc->block_size)); + pmem_assign(sb(wc)->n_blocks, cpu_to_le64(wc->n_blocks)); + pmem_assign(sb(wc)->seq_count, cpu_to_le64(0)); + + for (b = 0; b < wc->n_blocks; b++) + write_original_sector_seq_count(wc, &wc->entries[b], -1, -1); + + writecache_flush_all_metadata(wc); + writecache_commit_flushed(wc); + pmem_assign(sb(wc)->magic, cpu_to_le32(MEMORY_SUPERBLOCK_MAGIC)); + writecache_flush_region(wc, &sb(wc)->magic, sizeof sb(wc)->magic); + writecache_commit_flushed(wc); + + return 0; +} + +static void writecache_dtr(struct dm_target *ti) +{ + struct dm_writecache *wc = ti->private; + + if (!wc) + return; + + if (wc->endio_thread) + kthread_stop(wc->endio_thread); + + if (wc->flush_thread) + kthread_stop(wc->flush_thread); + + bioset_exit(&wc->bio_set); + + mempool_exit(&wc->copy_pool); + + if (wc->writeback_wq) + destroy_workqueue(wc->writeback_wq); + + if (wc->dev) + dm_put_device(ti, wc->dev); + + if (wc->ssd_dev) + dm_put_device(ti, wc->ssd_dev); + + if (wc->entries) + vfree(wc->entries); + + if (wc->memory_map) { + if (WC_MODE_PMEM(wc)) + persistent_memory_release(wc); + else + vfree(wc->memory_map); + } + + if (wc->dm_kcopyd) + dm_kcopyd_client_destroy(wc->dm_kcopyd); + + if (wc->dm_io) + dm_io_client_destroy(wc->dm_io); + + if (wc->dirty_bitmap) + vfree(wc->dirty_bitmap); + + kfree(wc); +} + +static int writecache_ctr(struct dm_target *ti, unsigned argc, char **argv) +{ + struct dm_writecache *wc; + struct dm_arg_set as; + const char *string; + unsigned opt_params; + size_t offset, data_size; + int i, r; + char dummy; + int high_wm_percent = HIGH_WATERMARK; + int low_wm_percent = LOW_WATERMARK; + uint64_t x; + struct wc_memory_superblock s; + + static struct dm_arg _args[] = { + {0, 10, "Invalid number of feature args"}, + }; + + as.argc = argc; + as.argv = argv; + + wc = kzalloc(sizeof(struct dm_writecache), GFP_KERNEL); + if (!wc) { + ti->error = "Cannot allocate writecache structure"; + r = -ENOMEM; + goto bad; + } + ti->private = wc; + wc->ti = ti; + + mutex_init(&wc->lock); + writecache_poison_lists(wc); + init_waitqueue_head(&wc->freelist_wait); + timer_setup(&wc->autocommit_timer, writecache_autocommit_timer, 0); + + for (i = 0; i < 2; i++) { + atomic_set(&wc->bio_in_progress[i], 0); + init_waitqueue_head(&wc->bio_in_progress_wait[i]); + } + + wc->dm_io = dm_io_client_create(); + if (IS_ERR(wc->dm_io)) { + r = PTR_ERR(wc->dm_io); + ti->error = "Unable to allocate dm-io client"; + wc->dm_io = NULL; + goto bad; + } + + wc->writeback_wq = alloc_workqueue("writecache-writeabck", WQ_MEM_RECLAIM, 1); + if (!wc->writeback_wq) { + r = -ENOMEM; + ti->error = "Could not allocate writeback workqueue"; + goto bad; + } + INIT_WORK(&wc->writeback_work, writecache_writeback); + INIT_WORK(&wc->flush_work, writecache_flush_work); + + raw_spin_lock_init(&wc->endio_list_lock); + INIT_LIST_HEAD(&wc->endio_list); + wc->endio_thread = kthread_create(writecache_endio_thread, wc, "writecache_endio"); + if (IS_ERR(wc->endio_thread)) { + r = PTR_ERR(wc->endio_thread); + wc->endio_thread = NULL; + ti->error = "Couldn't spawn endio thread"; + goto bad; + } + wake_up_process(wc->endio_thread); + + /* + * Parse the mode (pmem or ssd) + */ + string = dm_shift_arg(&as); + if (!string) + goto bad_arguments; + + if (!strcasecmp(string, "s")) { + wc->pmem_mode = false; + } else if (!strcasecmp(string, "p")) { +#ifdef DM_WRITECACHE_HAS_PMEM + wc->pmem_mode = true; + wc->writeback_fua = true; +#else + /* + * If the architecture doesn't support persistent memory or + * the kernel doesn't support any DAX drivers, this driver can + * only be used in SSD-only mode. + */ + r = -EOPNOTSUPP; + ti->error = "Persistent memory or DAX not supported on this system"; + goto bad; +#endif + } else { + goto bad_arguments; + } + + if (WC_MODE_PMEM(wc)) { + r = bioset_init(&wc->bio_set, BIO_POOL_SIZE, + offsetof(struct writeback_struct, bio), + BIOSET_NEED_BVECS); + if (r) { + ti->error = "Could not allocate bio set"; + goto bad; + } + } else { + r = mempool_init_kmalloc_pool(&wc->copy_pool, 1, sizeof(struct copy_struct)); + if (r) { + ti->error = "Could not allocate mempool"; + goto bad; + } + } + + /* + * Parse the origin data device + */ + string = dm_shift_arg(&as); + if (!string) + goto bad_arguments; + r = dm_get_device(ti, string, dm_table_get_mode(ti->table), &wc->dev); + if (r) { + ti->error = "Origin data device lookup failed"; + goto bad; + } + + /* + * Parse cache data device (be it pmem or ssd) + */ + string = dm_shift_arg(&as); + if (!string) + goto bad_arguments; + + r = dm_get_device(ti, string, dm_table_get_mode(ti->table), &wc->ssd_dev); + if (r) { + ti->error = "Cache data device lookup failed"; + goto bad; + } + wc->memory_map_size = i_size_read(wc->ssd_dev->bdev->bd_inode); + + if (WC_MODE_PMEM(wc)) { + r = persistent_memory_claim(wc); + if (r) { + ti->error = "Unable to map persistent memory for cache"; + goto bad; + } + } + + /* + * Parse the cache block size + */ + string = dm_shift_arg(&as); + if (!string) + goto bad_arguments; + if (sscanf(string, "%u%c", &wc->block_size, &dummy) != 1 || + wc->block_size < 512 || wc->block_size > PAGE_SIZE || + (wc->block_size & (wc->block_size - 1))) { + r = -EINVAL; + ti->error = "Invalid block size"; + goto bad; + } + wc->block_size_bits = __ffs(wc->block_size); + + wc->max_writeback_jobs = MAX_WRITEBACK_JOBS; + wc->autocommit_blocks = !WC_MODE_PMEM(wc) ? AUTOCOMMIT_BLOCKS_SSD : AUTOCOMMIT_BLOCKS_PMEM; + wc->autocommit_jiffies = msecs_to_jiffies(AUTOCOMMIT_MSEC); + + /* + * Parse optional arguments + */ + r = dm_read_arg_group(_args, &as, &opt_params, &ti->error); + if (r) + goto bad; + + while (opt_params) { + string = dm_shift_arg(&as), opt_params--; + if (!strcasecmp(string, "high_watermark") && opt_params >= 1) { + string = dm_shift_arg(&as), opt_params--; + if (sscanf(string, "%d%c", &high_wm_percent, &dummy) != 1) + goto invalid_optional; + if (high_wm_percent < 0 || high_wm_percent > 100) + goto invalid_optional; + wc->high_wm_percent_set = true; + } else if (!strcasecmp(string, "low_watermark") && opt_params >= 1) { + string = dm_shift_arg(&as), opt_params--; + if (sscanf(string, "%d%c", &low_wm_percent, &dummy) != 1) + goto invalid_optional; + if (low_wm_percent < 0 || low_wm_percent > 100) + goto invalid_optional; + wc->low_wm_percent_set = true; + } else if (!strcasecmp(string, "writeback_jobs") && opt_params >= 1) { + string = dm_shift_arg(&as), opt_params--; + if (sscanf(string, "%u%c", &wc->max_writeback_jobs, &dummy) != 1) + goto invalid_optional; + wc->max_writeback_jobs_set = true; + } else if (!strcasecmp(string, "autocommit_blocks") && opt_params >= 1) { + string = dm_shift_arg(&as), opt_params--; + if (sscanf(string, "%u%c", &wc->autocommit_blocks, &dummy) != 1) + goto invalid_optional; + wc->autocommit_blocks_set = true; + } else if (!strcasecmp(string, "autocommit_time") && opt_params >= 1) { + unsigned autocommit_msecs; + string = dm_shift_arg(&as), opt_params--; + if (sscanf(string, "%u%c", &autocommit_msecs, &dummy) != 1) + goto invalid_optional; + if (autocommit_msecs > 3600000) + goto invalid_optional; + wc->autocommit_jiffies = msecs_to_jiffies(autocommit_msecs); + wc->autocommit_time_set = true; + } else if (!strcasecmp(string, "fua")) { + if (WC_MODE_PMEM(wc)) { + wc->writeback_fua = true; + wc->writeback_fua_set = true; + } else goto invalid_optional; + } else if (!strcasecmp(string, "nofua")) { + if (WC_MODE_PMEM(wc)) { + wc->writeback_fua = false; + wc->writeback_fua_set = true; + } else goto invalid_optional; + } else { +invalid_optional: + r = -EINVAL; + ti->error = "Invalid optional argument"; + goto bad; + } + } + + if (high_wm_percent < low_wm_percent) { + r = -EINVAL; + ti->error = "High watermark must be greater than or equal to low watermark"; + goto bad; + } + + if (!WC_MODE_PMEM(wc)) { + struct dm_io_region region; + struct dm_io_request req; + size_t n_blocks, n_metadata_blocks; + uint64_t n_bitmap_bits; + + bio_list_init(&wc->flush_list); + wc->flush_thread = kthread_create(writecache_flush_thread, wc, "dm_writecache_flush"); + if (IS_ERR(wc->flush_thread)) { + r = PTR_ERR(wc->flush_thread); + wc->flush_thread = NULL; + ti->error = "Couldn't spawn endio thread"; + goto bad; + } + wake_up_process(wc->flush_thread); + + r = calculate_memory_size(wc->memory_map_size, wc->block_size, + &n_blocks, &n_metadata_blocks); + if (r) { + ti->error = "Invalid device size"; + goto bad; + } + + n_bitmap_bits = (((uint64_t)n_metadata_blocks << wc->block_size_bits) + + BITMAP_GRANULARITY - 1) / BITMAP_GRANULARITY; + /* this is limitation of test_bit functions */ + if (n_bitmap_bits > 1U << 31) { + r = -EFBIG; + ti->error = "Invalid device size"; + goto bad; + } + + wc->memory_map = vmalloc(n_metadata_blocks << wc->block_size_bits); + if (!wc->memory_map) { + r = -ENOMEM; + ti->error = "Unable to allocate memory for metadata"; + goto bad; + } + + wc->dm_kcopyd = dm_kcopyd_client_create(&dm_kcopyd_throttle); + if (IS_ERR(wc->dm_kcopyd)) { + r = PTR_ERR(wc->dm_kcopyd); + ti->error = "Unable to allocate dm-kcopyd client"; + wc->dm_kcopyd = NULL; + goto bad; + } + + wc->metadata_sectors = n_metadata_blocks << (wc->block_size_bits - SECTOR_SHIFT); + wc->dirty_bitmap_size = (n_bitmap_bits + BITS_PER_LONG - 1) / + BITS_PER_LONG * sizeof(unsigned long); + wc->dirty_bitmap = vzalloc(wc->dirty_bitmap_size); + if (!wc->dirty_bitmap) { + r = -ENOMEM; + ti->error = "Unable to allocate dirty bitmap"; + goto bad; + } + + region.bdev = wc->ssd_dev->bdev; + region.sector = 0; + region.count = wc->metadata_sectors; + req.bi_op = REQ_OP_READ; + req.bi_op_flags = REQ_SYNC; + req.mem.type = DM_IO_VMA; + req.mem.ptr.vma = (char *)wc->memory_map; + req.client = wc->dm_io; + req.notify.fn = NULL; + + r = dm_io(&req, 1, ®ion, NULL); + if (r) { + ti->error = "Unable to read metadata"; + goto bad; + } + } + + r = memcpy_mcsafe(&s, sb(wc), sizeof(struct wc_memory_superblock)); + if (r) { + ti->error = "Hardware memory error when reading superblock"; + goto bad; + } + if (!le32_to_cpu(s.magic) && !le32_to_cpu(s.version)) { + r = init_memory(wc); + if (r) { + ti->error = "Unable to initialize device"; + goto bad; + } + r = memcpy_mcsafe(&s, sb(wc), sizeof(struct wc_memory_superblock)); + if (r) { + ti->error = "Hardware memory error when reading superblock"; + goto bad; + } + } + + if (le32_to_cpu(s.magic) != MEMORY_SUPERBLOCK_MAGIC) { + ti->error = "Invalid magic in the superblock"; + r = -EINVAL; + goto bad; + } + + if (le32_to_cpu(s.version) != MEMORY_SUPERBLOCK_VERSION) { + ti->error = "Invalid version in the superblock"; + r = -EINVAL; + goto bad; + } + + if (le32_to_cpu(s.block_size) != wc->block_size) { + ti->error = "Block size does not match superblock"; + r = -EINVAL; + goto bad; + } + + wc->n_blocks = le64_to_cpu(s.n_blocks); + + offset = wc->n_blocks * sizeof(struct wc_memory_entry); + if (offset / sizeof(struct wc_memory_entry) != le64_to_cpu(sb(wc)->n_blocks)) { +overflow: + ti->error = "Overflow in size calculation"; + r = -EINVAL; + goto bad; + } + offset += sizeof(struct wc_memory_superblock); + if (offset < sizeof(struct wc_memory_superblock)) + goto overflow; + offset = (offset + wc->block_size - 1) & ~(size_t)(wc->block_size - 1); + data_size = wc->n_blocks * (size_t)wc->block_size; + if (!offset || (data_size / wc->block_size != wc->n_blocks) || + (offset + data_size < offset)) + goto overflow; + if (offset + data_size > wc->memory_map_size) { + ti->error = "Memory area is too small"; + r = -EINVAL; + goto bad; + } + + wc->metadata_sectors = offset >> SECTOR_SHIFT; + wc->block_start = (char *)sb(wc) + offset; + + x = (uint64_t)wc->n_blocks * (100 - high_wm_percent); + x += 50; + do_div(x, 100); + wc->freelist_high_watermark = x; + x = (uint64_t)wc->n_blocks * (100 - low_wm_percent); + x += 50; + do_div(x, 100); + wc->freelist_low_watermark = x; + + r = writecache_alloc_entries(wc); + if (r) { + ti->error = "Cannot allocate memory"; + goto bad; + } + + ti->num_flush_bios = 1; + ti->flush_supported = true; + ti->num_discard_bios = 1; + + if (WC_MODE_PMEM(wc)) + persistent_memory_flush_cache(wc->memory_map, wc->memory_map_size); + + return 0; + +bad_arguments: + r = -EINVAL; + ti->error = "Bad arguments"; +bad: + writecache_dtr(ti); + return r; +} + +static void writecache_status(struct dm_target *ti, status_type_t type, + unsigned status_flags, char *result, unsigned maxlen) +{ + struct dm_writecache *wc = ti->private; + unsigned extra_args; + unsigned sz = 0; + uint64_t x; + + switch (type) { + case STATUSTYPE_INFO: + DMEMIT("%ld %llu %llu %llu", writecache_has_error(wc), + (unsigned long long)wc->n_blocks, (unsigned long long)wc->freelist_size, + (unsigned long long)wc->writeback_size); + break; + case STATUSTYPE_TABLE: + DMEMIT("%c %s %s %u ", WC_MODE_PMEM(wc) ? 'p' : 's', + wc->dev->name, wc->ssd_dev->name, wc->block_size); + extra_args = 0; + if (wc->high_wm_percent_set) + extra_args += 2; + if (wc->low_wm_percent_set) + extra_args += 2; + if (wc->max_writeback_jobs_set) + extra_args += 2; + if (wc->autocommit_blocks_set) + extra_args += 2; + if (wc->autocommit_time_set) + extra_args += 2; + if (wc->writeback_fua_set) + extra_args++; + + DMEMIT("%u", extra_args); + if (wc->high_wm_percent_set) { + x = (uint64_t)wc->freelist_high_watermark * 100; + x += wc->n_blocks / 2; + do_div(x, (size_t)wc->n_blocks); + DMEMIT(" high_watermark %u", 100 - (unsigned)x); + } + if (wc->low_wm_percent_set) { + x = (uint64_t)wc->freelist_low_watermark * 100; + x += wc->n_blocks / 2; + do_div(x, (size_t)wc->n_blocks); + DMEMIT(" low_watermark %u", 100 - (unsigned)x); + } + if (wc->max_writeback_jobs_set) + DMEMIT(" writeback_jobs %u", wc->max_writeback_jobs); + if (wc->autocommit_blocks_set) + DMEMIT(" autocommit_blocks %u", wc->autocommit_blocks); + if (wc->autocommit_time_set) + DMEMIT(" autocommit_time %u", jiffies_to_msecs(wc->autocommit_jiffies)); + if (wc->writeback_fua_set) + DMEMIT(" %sfua", wc->writeback_fua ? "" : "no"); + break; + } +} + +static struct target_type writecache_target = { + .name = "writecache", + .version = {1, 0, 0}, + .module = THIS_MODULE, + .ctr = writecache_ctr, + .dtr = writecache_dtr, + .status = writecache_status, + .postsuspend = writecache_suspend, + .resume = writecache_resume, + .message = writecache_message, + .map = writecache_map, + .end_io = writecache_end_io, + .iterate_devices = writecache_iterate_devices, + .io_hints = writecache_io_hints, +}; + +static int __init dm_writecache_init(void) +{ + int r; + + r = dm_register_target(&writecache_target); + if (r < 0) { + DMERR("register failed %d", r); + return r; + } + + return 0; +} + +static void __exit dm_writecache_exit(void) +{ + dm_unregister_target(&writecache_target); +} + +module_init(dm_writecache_init); +module_exit(dm_writecache_exit); + +MODULE_DESCRIPTION(DM_NAME " writecache target"); +MODULE_AUTHOR("Mikulas Patocka <dm-devel@redhat.com>"); +MODULE_LICENSE("GPL"); diff --git a/drivers/md/dm-zoned-target.c b/drivers/md/dm-zoned-target.c index 30602d15ad9a..3c0e45f4dcf5 100644 --- a/drivers/md/dm-zoned-target.c +++ b/drivers/md/dm-zoned-target.c @@ -52,9 +52,9 @@ struct dmz_target { struct dmz_reclaim *reclaim; /* For chunk work */ - struct mutex chunk_lock; struct radix_tree_root chunk_rxtree; struct workqueue_struct *chunk_wq; + struct mutex chunk_lock; /* For cloned BIOs to zones */ struct bio_set bio_set; |