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All rights reserved. * * This file is released under the GPL. */ #include "dm.h" #include "dm-bio-list.h" #include <linux/init.h> #include <linux/module.h> #include <linux/moduleparam.h> #include <linux/blkpg.h> #include <linux/bio.h> #include <linux/buffer_head.h> #include <linux/mempool.h> #include <linux/slab.h> #include <linux/idr.h> static const char *_name = DM_NAME; static unsigned int major = 0; static unsigned int _major = 0; /* * One of these is allocated per bio. */ struct dm_io { struct mapped_device *md; int error; struct bio *bio; atomic_t io_count; }; /* * One of these is allocated per target within a bio. Hopefully * this will be simplified out one day. */ struct target_io { struct dm_io *io; struct dm_target *ti; union map_info info; }; union map_info *dm_get_mapinfo(struct bio *bio) { if (bio && bio->bi_private) return &((struct target_io *)bio->bi_private)->info; return NULL; } /* * Bits for the md->flags field. */ #define DMF_BLOCK_IO 0 #define DMF_SUSPENDED 1 struct mapped_device { struct rw_semaphore io_lock; struct semaphore suspend_lock; rwlock_t map_lock; atomic_t holders; unsigned long flags; request_queue_t *queue; struct gendisk *disk; void *interface_ptr; /* * A list of ios that arrived while we were suspended. */ atomic_t pending; wait_queue_head_t wait; struct bio_list deferred; /* * The current mapping. */ struct dm_table *map; /* * io objects are allocated from here. */ mempool_t *io_pool; mempool_t *tio_pool; /* * Event handling. */ atomic_t event_nr; wait_queue_head_t eventq; /* * freeze/thaw support require holding onto a super block */ struct super_block *frozen_sb; struct block_device *frozen_bdev; }; #define MIN_IOS 256 static kmem_cache_t *_io_cache; static kmem_cache_t *_tio_cache; static struct bio_set *dm_set; static int __init local_init(void) { int r; dm_set = bioset_create(16, 16, 4); if (!dm_set) return -ENOMEM; /* allocate a slab for the dm_ios */ _io_cache = kmem_cache_create("dm_io", sizeof(struct dm_io), 0, 0, NULL, NULL); if (!_io_cache) return -ENOMEM; /* allocate a slab for the target ios */ _tio_cache = kmem_cache_create("dm_tio", sizeof(struct target_io), 0, 0, NULL, NULL); if (!_tio_cache) { kmem_cache_destroy(_io_cache); return -ENOMEM; } _major = major; r = register_blkdev(_major, _name); if (r < 0) { kmem_cache_destroy(_tio_cache); kmem_cache_destroy(_io_cache); return r; } if (!_major) _major = r; return 0; } static void local_exit(void) { kmem_cache_destroy(_tio_cache); kmem_cache_destroy(_io_cache); bioset_free(dm_set); if (unregister_blkdev(_major, _name) < 0) DMERR("devfs_unregister_blkdev failed"); _major = 0; DMINFO("cleaned up"); } int (*_inits[])(void) __initdata = { local_init, dm_target_init, dm_linear_init, dm_stripe_init, dm_interface_init, }; void (*_exits[])(void) = { local_exit, dm_target_exit, dm_linear_exit, dm_stripe_exit, dm_interface_exit, }; static int __init dm_init(void) { const int count = ARRAY_SIZE(_inits); int r, i; for (i = 0; i < count; i++) { r = _inits[i](); if (r) goto bad; } return 0; bad: while (i--) _exits[i](); return r; } static void __exit dm_exit(void) { int i = ARRAY_SIZE(_exits); while (i--) _exits[i](); } /* * Block device functions */ static int dm_blk_open(struct inode *inode, struct file *file) { struct mapped_device *md; md = inode->i_bdev->bd_disk->private_data; dm_get(md); return 0; } static int dm_blk_close(struct inode *inode, struct file *file) { struct mapped_device *md; md = inode->i_bdev->bd_disk->private_data; dm_put(md); return 0; } static inline struct dm_io *alloc_io(struct mapped_device *md) { return mempool_alloc(md->io_pool, GFP_NOIO); } static inline void free_io(struct mapped_device *md, struct dm_io *io) { mempool_free(io, md->io_pool); } static inline struct target_io *alloc_tio(struct mapped_device *md) { return mempool_alloc(md->tio_pool, GFP_NOIO); } static inline void free_tio(struct mapped_device *md, struct target_io *tio) { mempool_free(tio, md->tio_pool); } /* * Add the bio to the list of deferred io. */ static int queue_io(struct mapped_device *md, struct bio *bio) { down_write(&md->io_lock); if (!test_bit(DMF_BLOCK_IO, &md->flags)) { up_write(&md->io_lock); return 1; } bio_list_add(&md->deferred, bio); up_write(&md->io_lock); return 0; /* deferred successfully */ } /* * Everyone (including functions in this file), should use this * function to access the md->map field, and make sure they call * dm_table_put() when finished. */ struct dm_table *dm_get_table(struct mapped_device *md) { struct dm_table *t; read_lock(&md->map_lock); t = md->map; if (t) dm_table_get(t); read_unlock(&md->map_lock); return t; } /*----------------------------------------------------------------- * CRUD START: * A more elegant soln is in the works that uses the queue * merge fn, unfortunately there are a couple of changes to * the block layer that I want to make for this. So in the * interests of getting something for people to use I give * you this clearly demarcated crap. *---------------------------------------------------------------*/ /* * Decrements the number of outstanding ios that a bio has been * cloned into, completing the original io if necc. */ static inline void dec_pending(struct dm_io *io, int error) { if (error) io->error = error; if (atomic_dec_and_test(&io->io_count)) { if (atomic_dec_and_test(&io->md->pending)) /* nudge anyone waiting on suspend queue */ wake_up(&io->md->wait); bio_endio(io->bio, io->bio->bi_size, io->error); free_io(io->md, io); } } static int clone_endio(struct bio *bio, unsigned int done, int error) { int r = 0; struct target_io *tio = bio->bi_private; struct dm_io *io = tio->io; dm_endio_fn endio = tio->ti->type->end_io; if (bio->bi_size) return 1; if (!bio_flagged(bio, BIO_UPTODATE) && !error) error = -EIO; if (endio) { r = endio(tio->ti, bio, error, &tio->info); if (r < 0) error = r; else if (r > 0) /* the target wants another shot at the io */ return 1; } free_tio(io->md, tio); dec_pending(io, error); bio_put(bio); return r; } static sector_t max_io_len(struct mapped_device *md, sector_t sector, struct dm_target *ti) { sector_t offset = sector - ti->begin; sector_t len = ti->len - offset; /* * Does the target need to split even further ? */ if (ti->split_io) { sector_t boundary; boundary = ((offset + ti->split_io) & ~(ti->split_io - 1)) - offset; if (len > boundary) len = boundary; } return len; } static void __map_bio(struct dm_target *ti, struct bio *clone, struct target_io *tio) { int r; /* * Sanity checks. */ BUG_ON(!clone->bi_size); clone->bi_end_io = clone_endio; clone->bi_private = tio; /* * Map the clone. If r == 0 we don't need to do * anything, the target has assumed ownership of * this io. */ atomic_inc(&tio->io->io_count); r = ti->type->map(ti, clone, &tio->info); if (r > 0) /* the bio has been remapped so dispatch it */ generic_make_request(clone); else if (r < 0) { /* error the io and bail out */ struct dm_io *io = tio->io; free_tio(tio->io->md, tio); dec_pending(io, r); bio_put(clone); } } struct clone_info { struct mapped_device *md; struct dm_table *map; struct bio *bio; struct dm_io *io; sector_t sector; sector_t sector_count; unsigned short idx; }; /* * Creates a little bio that is just does part of a bvec. */ static struct bio *split_bvec(struct bio *bio, sector_t sector, unsigned short idx, unsigned int offset, unsigned int len) { struct bio *clone; struct bio_vec *bv = bio->bi_io_vec + idx; clone = bio_alloc_bioset(GFP_NOIO, 1, dm_set); *clone->bi_io_vec = *bv; clone->bi_sector = sector; clone->bi_bdev = bio->bi_bdev; clone->bi_rw = bio->bi_rw; clone->bi_vcnt = 1; clone->bi_size = to_bytes(len); clone->bi_io_vec->bv_offset = offset; clone->bi_io_vec->bv_len = clone->bi_size; return clone; } /* * Creates a bio that consists of range of complete bvecs. */ static struct bio *clone_bio(struct bio *bio, sector_t sector, unsigned short idx, unsigned short bv_count, unsigned int len) { struct bio *clone; clone = bio_clone(bio, GFP_NOIO); clone->bi_sector = sector; clone->bi_idx = idx; clone->bi_vcnt = idx + bv_count; clone->bi_size = to_bytes(len); clone->bi_flags &= ~(1 << BIO_SEG_VALID); return clone; } static void __clone_and_map(struct clone_info *ci) { struct bio *clone, *bio = ci->bio; struct dm_target *ti = dm_table_find_target(ci->map, ci->sector); sector_t len = 0, max = max_io_len(ci->md, ci->sector, ti); struct target_io *tio; /* * Allocate a target io object. */ tio = alloc_tio(ci->md); tio->io = ci->io; tio->ti = ti; memset(&tio->info, 0, sizeof(tio->info)); if (ci->sector_count <= max) { /* * Optimise for the simple case where we can do all of * the remaining io with a single clone. */ clone = clone_bio(bio, ci->sector, ci->idx, bio->bi_vcnt - ci->idx, ci->sector_count); __map_bio(ti, clone, tio); ci->sector_count = 0; } else if (to_sector(bio->bi_io_vec[ci->idx].bv_len) <= max) { /* * There are some bvecs that don't span targets. * Do as many of these as possible. */ int i; sector_t remaining = max; sector_t bv_len; for (i = ci->idx; remaining && (i < bio->bi_vcnt); i++) { bv_len = to_sector(bio->bi_io_vec[i].bv_len); if (bv_len > remaining) break; remaining -= bv_len; len += bv_len; } clone = clone_bio(bio, ci->sector, ci->idx, i - ci->idx, len); __map_bio(ti, clone, tio); ci->sector += len; ci->sector_count -= len; ci->idx = i; } else { /* * Create two copy bios to deal with io that has * been split across a target. */ struct bio_vec *bv = bio->bi_io_vec + ci->idx; clone = split_bvec(bio, ci->sector, ci->idx, bv->bv_offset, max); __map_bio(ti, clone, tio); ci->sector += max; ci->sector_count -= max; ti = dm_table_find_target(ci->map, ci->sector); len = to_sector(bv->bv_len) - max; clone = split_bvec(bio, ci->sector, ci->idx, bv->bv_offset + to_bytes(max), len); tio = alloc_tio(ci->md); tio->io = ci->io; tio->ti = ti; memset(&tio->info, 0, sizeof(tio->info)); __map_bio(ti, clone, tio); ci->sector += len; ci->sector_count -= len; ci->idx++; } } /* * Split the bio into several clones. */ static void __split_bio(struct mapped_device *md, struct bio *bio) { struct clone_info ci; ci.map = dm_get_table(md); if (!ci.map) { bio_io_error(bio, bio->bi_size); return; } ci.md = md; ci.bio = bio; ci.io = alloc_io(md); ci.io->error = 0; atomic_set(&ci.io->io_count, 1); ci.io->bio = bio; ci.io->md = md; ci.sector = bio->bi_sector; ci.sector_count = bio_sectors(bio); ci.idx = bio->bi_idx; atomic_inc(&md->pending); while (ci.sector_count) __clone_and_map(&ci); /* drop the extra reference count */ dec_pending(ci.io, 0); dm_table_put(ci.map); } /*----------------------------------------------------------------- * CRUD END *---------------------------------------------------------------*/ /* * The request function that just remaps the bio built up by * dm_merge_bvec. */ static int dm_request(request_queue_t *q, struct bio *bio) { int r; struct mapped_device *md = q->queuedata; down_read(&md->io_lock); /* * If we're suspended we have to queue * this io for later. */ while (test_bit(DMF_BLOCK_IO, &md->flags)) { up_read(&md->io_lock); if (bio_rw(bio) == READA) { bio_io_error(bio, bio->bi_size); return 0; } r = queue_io(md, bio); if (r < 0) { bio_io_error(bio, bio->bi_size); return 0; } else if (r == 0) return 0; /* deferred successfully */ /* * We're in a while loop, because someone could suspend * before we get to the following read lock. */ down_read(&md->io_lock); } __split_bio(md, bio); up_read(&md->io_lock); return 0; } static int dm_flush_all(request_queue_t *q, struct gendisk *disk, sector_t *error_sector) { struct mapped_device *md = q->queuedata; struct dm_table *map = dm_get_table(md); int ret = -ENXIO; if (map) { ret = dm_table_flush_all(map); dm_table_put(map); } return ret; } static void dm_unplug_all(request_queue_t *q) { struct mapped_device *md = q->queuedata; struct dm_table *map = dm_get_table(md); if (map) { dm_table_unplug_all(map); dm_table_put(map); } } static int dm_any_congested(void *congested_data, int bdi_bits) { int r; struct mapped_device *md = (struct mapped_device *) congested_data; struct dm_table *map = dm_get_table(md); if (!map || test_bit(DMF_BLOCK_IO, &md->flags)) r = bdi_bits; else r = dm_table_any_congested(map, bdi_bits); dm_table_put(map); return r; } /*----------------------------------------------------------------- * An IDR is used to keep track of allocated minor numbers. *---------------------------------------------------------------*/ static DECLARE_MUTEX(_minor_lock); static DEFINE_IDR(_minor_idr); static void free_minor(unsigned int minor) { down(&_minor_lock); idr_remove(&_minor_idr, minor); up(&_minor_lock); } /* * See if the device with a specific minor # is free. */ static int specific_minor(struct mapped_device *md, unsigned int minor) { int r, m; if (minor >= (1 << MINORBITS)) return -EINVAL; down(&_minor_lock); if (idr_find(&_minor_idr, minor)) { r = -EBUSY; goto out; } r = idr_pre_get(&_minor_idr, GFP_KERNEL); if (!r) { r = -ENOMEM; goto out; } r = idr_get_new_above(&_minor_idr, md, minor, &m); if (r) { goto out; } if (m != minor) { idr_remove(&_minor_idr, m); r = -EBUSY; goto out; } out: up(&_minor_lock); return r; } static int next_free_minor(struct mapped_device *md, unsigned int *minor) { int r; unsigned int m; down(&_minor_lock); r = idr_pre_get(&_minor_idr, GFP_KERNEL); if (!r) { r = -ENOMEM; goto out; } r = idr_get_new(&_minor_idr, md, &m); if (r) { goto out; } if (m >= (1 << MINORBITS)) { idr_remove(&_minor_idr, m); r = -ENOSPC; goto out; } *minor = m; out: up(&_minor_lock); return r; } static struct block_device_operations dm_blk_dops; /* * Allocate and initialise a blank device with a given minor. */ static struct mapped_device *alloc_dev(unsigned int minor, int persistent) { int r; struct mapped_device *md = kmalloc(sizeof(*md), GFP_KERNEL); if (!md) { DMWARN("unable to allocate device, out of memory."); return NULL; } /* get a minor number for the dev */ r = persistent ? specific_minor(md, minor) : next_free_minor(md, &minor); if (r < 0) goto bad1; memset(md, 0, sizeof(*md)); init_rwsem(&md->io_lock); init_MUTEX(&md->suspend_lock); rwlock_init(&md->map_lock); atomic_set(&md->holders, 1); atomic_set(&md->event_nr, 0); md->queue = blk_alloc_queue(GFP_KERNEL); if (!md->queue) goto bad1; md->queue->queuedata = md; md->queue->backing_dev_info.congested_fn = dm_any_congested; md->queue->backing_dev_info.congested_data = md; blk_queue_make_request(md->queue, dm_request); md->queue->unplug_fn = dm_unplug_all; md->queue->issue_flush_fn = dm_flush_all; md->io_pool = mempool_create(MIN_IOS, mempool_alloc_slab, mempool_free_slab, _io_cache); if (!md->io_pool) goto bad2; md->tio_pool = mempool_create(MIN_IOS, mempool_alloc_slab, mempool_free_slab, _tio_cache); if (!md->tio_pool) goto bad3; md->disk = alloc_disk(1); if (!md->disk) goto bad4; md->disk->major = _major; md->disk->first_minor = minor; md->disk->fops = &dm_blk_dops; md->disk->queue = md->queue; md->disk->private_data = md; sprintf(md->disk->disk_name, "dm-%d", minor); add_disk(md->disk); atomic_set(&md->pending, 0); init_waitqueue_head(&md->wait); init_waitqueue_head(&md->eventq); return md; bad4: mempool_destroy(md->tio_pool); bad3: mempool_destroy(md->io_pool); bad2: blk_put_queue(md->queue); free_minor(minor); bad1: kfree(md); return NULL; } static void free_dev(struct mapped_device *md) { free_minor(md->disk->first_minor); mempool_destroy(md->tio_pool); mempool_destroy(md->io_pool); del_gendisk(md->disk); put_disk(md->disk); blk_put_queue(md->queue); kfree(md); } /* * Bind a table to the device. */ static void event_callback(void *context) { struct mapped_device *md = (struct mapped_device *) context; atomic_inc(&md->event_nr); wake_up(&md->eventq); } static void __set_size(struct mapped_device *md, sector_t size) { set_capacity(md->disk, size); down(&md->frozen_bdev->bd_inode->i_sem); i_size_write(md->frozen_bdev->bd_inode, (loff_t)size << SECTOR_SHIFT); up(&md->frozen_bdev->bd_inode->i_sem); } static int __bind(struct mapped_device *md, struct dm_table *t) { request_queue_t *q = md->queue; sector_t size; size = dm_table_get_size(t); __set_size(md, size); if (size == 0) return 0; dm_table_get(t); dm_table_event_callback(t, event_callback, md); write_lock(&md->map_lock); md->map = t; dm_table_set_restrictions(t, q); write_unlock(&md->map_lock); return 0; } static void __unbind(struct mapped_device *md) { struct dm_table *map = md->map; if (!map) return; dm_table_event_callback(map, NULL, NULL); write_lock(&md->map_lock); md->map = NULL; write_unlock(&md->map_lock); dm_table_put(map); } /* * Constructor for a new device. */ static int create_aux(unsigned int minor, int persistent, struct mapped_device **result) { struct mapped_device *md; md = alloc_dev(minor, persistent); if (!md) return -ENXIO; *result = md; return 0; } int dm_create(struct mapped_device **result) { return create_aux(0, 0, result); } int dm_create_with_minor(unsigned int minor, struct mapped_device **result) { return create_aux(minor, 1, result); } void *dm_get_mdptr(dev_t dev) { struct mapped_device *md; void *mdptr = NULL; unsigned minor = MINOR(dev); if (MAJOR(dev) != _major || minor >= (1 << MINORBITS)) return NULL; down(&_minor_lock); md = idr_find(&_minor_idr, minor); if (md && (dm_disk(md)->first_minor == minor)) mdptr = md->interface_ptr; up(&_minor_lock); return mdptr; } void dm_set_mdptr(struct mapped_device *md, void *ptr) { md->interface_ptr = ptr; } void dm_get(struct mapped_device *md) { atomic_inc(&md->holders); } void dm_put(struct mapped_device *md) { struct dm_table *map = dm_get_table(md); if (atomic_dec_and_test(&md->holders)) { if (!dm_suspended(md)) { dm_table_presuspend_targets(map); dm_table_postsuspend_targets(map); } __unbind(md); free_dev(md); } dm_table_put(map); } /* * Process the deferred bios */ static void __flush_deferred_io(struct mapped_device *md, struct bio *c) { struct bio *n; while (c) { n = c->bi_next; c->bi_next = NULL; __split_bio(md, c); c = n; } } /* * Swap in a new table (destroying old one). */ int dm_swap_table(struct mapped_device *md, struct dm_table *table) { int r = -EINVAL; down(&md->suspend_lock); /* device must be suspended */ if (!dm_suspended(md)) goto out; __unbind(md); r = __bind(md, table); out: up(&md->suspend_lock); return r; } /* * Functions to lock and unlock any filesystem running on the * device. */ static int lock_fs(struct mapped_device *md) { int r = -ENOMEM; md->frozen_bdev = bdget_disk(md->disk, 0); if (!md->frozen_bdev) { DMWARN("bdget failed in lock_fs"); goto out; } WARN_ON(md->frozen_sb); md->frozen_sb = freeze_bdev(md->frozen_bdev); if (IS_ERR(md->frozen_sb)) { r = PTR_ERR(md->frozen_sb); goto out_bdput; } /* don't bdput right now, we don't want the bdev * to go away while it is locked. We'll bdput * in unlock_fs */ return 0; out_bdput: bdput(md->frozen_bdev); md->frozen_sb = NULL; md->frozen_bdev = NULL; out: return r; } static void unlock_fs(struct mapped_device *md) { thaw_bdev(md->frozen_bdev, md->frozen_sb); bdput(md->frozen_bdev); md->frozen_sb = NULL; md->frozen_bdev = NULL; } /* * We need to be able to change a mapping table under a mounted * filesystem. For example we might want to move some data in * the background. Before the table can be swapped with * dm_bind_table, dm_suspend must be called to flush any in * flight bios and ensure that any further io gets deferred. */ int dm_suspend(struct mapped_device *md) { struct dm_table *map = NULL; DECLARE_WAITQUEUE(wait, current); int r = -EINVAL; down(&md->suspend_lock); if (dm_suspended(md)) goto out; map = dm_get_table(md); /* This does not get reverted if there's an error later. */ dm_table_presuspend_targets(map); /* Flush I/O to the device. */ r = lock_fs(md); if (r) goto out; /* * First we set the BLOCK_IO flag so no more ios will be mapped. */ down_write(&md->io_lock); set_bit(DMF_BLOCK_IO, &md->flags); add_wait_queue(&md->wait, &wait); up_write(&md->io_lock); /* unplug */ if (map) dm_table_unplug_all(map); /* * Then we wait for the already mapped ios to * complete. */ while (1) { set_current_state(TASK_INTERRUPTIBLE); if (!atomic_read(&md->pending) || signal_pending(current)) break; io_schedule(); } set_current_state(TASK_RUNNING); down_write(&md->io_lock); remove_wait_queue(&md->wait, &wait); /* were we interrupted ? */ r = -EINTR; if (atomic_read(&md->pending)) { up_write(&md->io_lock); unlock_fs(md); clear_bit(DMF_BLOCK_IO, &md->flags); goto out; } up_write(&md->io_lock); dm_table_postsuspend_targets(map); set_bit(DMF_SUSPENDED, &md->flags); r = 0; out: dm_table_put(map); up(&md->suspend_lock); return r; } int dm_resume(struct mapped_device *md) { int r = -EINVAL; struct bio *def; struct dm_table *map = NULL; down(&md->suspend_lock); if (!dm_suspended(md)) goto out; map = dm_get_table(md); if (!map || !dm_table_get_size(map)) goto out; dm_table_resume_targets(map); down_write(&md->io_lock); clear_bit(DMF_BLOCK_IO, &md->flags); def = bio_list_get(&md->deferred); __flush_deferred_io(md, def); up_write(&md->io_lock); unlock_fs(md); clear_bit(DMF_SUSPENDED, &md->flags); dm_table_unplug_all(map); r = 0; out: dm_table_put(map); up(&md->suspend_lock); return r; } /*----------------------------------------------------------------- * Event notification. *---------------------------------------------------------------*/ uint32_t dm_get_event_nr(struct mapped_device *md) { return atomic_read(&md->event_nr); } int dm_wait_event(struct mapped_device *md, int event_nr) { return wait_event_interruptible(md->eventq, (event_nr != atomic_read(&md->event_nr))); } /* * The gendisk is only valid as long as you have a reference * count on 'md'. */ struct gendisk *dm_disk(struct mapped_device *md) { return md->disk; } int dm_suspended(struct mapped_device *md) { return test_bit(DMF_SUSPENDED, &md->flags); } static struct block_device_operations dm_blk_dops = { .open = dm_blk_open, .release = dm_blk_close, .owner = THIS_MODULE }; EXPORT_SYMBOL(dm_get_mapinfo); /* * module hooks */ module_init(dm_init); module_exit(dm_exit); module_param(major, uint, 0); MODULE_PARM_DESC(major, "The major number of the device mapper"); MODULE_DESCRIPTION(DM_NAME " driver"); MODULE_AUTHOR("Joe Thornber <dm-devel@redhat.com>"); MODULE_LICENSE("GPL"); |