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There are three pieces: * - elevator_fn, inserts a new request in the queue list * - elevator_merge_fn, decides whether a new buffer can be merged with * an existing request * - elevator_dequeue_fn, called when a request is taken off the active list * * 20082000 Dave Jones <davej@suse.de> : * Removed tests for max-bomb-segments, which was breaking elvtune * when run without -bN * * Jens: * - Rework again to work with bio instead of buffer_heads * - loose bi_dev comparisons, partition handling is right now * - completely modularize elevator setup and teardown * */ #include <linux/kernel.h> #include <linux/fs.h> #include <linux/blkdev.h> #include <linux/elevator.h> #include <linux/bio.h> #include <linux/config.h> #include <linux/module.h> #include <linux/slab.h> #include <linux/init.h> #include <linux/compiler.h> #include <linux/delay.h> #include <asm/uaccess.h> static DEFINE_SPINLOCK(elv_list_lock); static LIST_HEAD(elv_list); /* * can we safely merge with this request? */ inline int elv_rq_merge_ok(struct request *rq, struct bio *bio) { if (!rq_mergeable(rq)) return 0; /* * different data direction or already started, don't merge */ if (bio_data_dir(bio) != rq_data_dir(rq)) return 0; /* * same device and no special stuff set, merge is ok */ if (rq->rq_disk == bio->bi_bdev->bd_disk && !rq->waiting && !rq->special) return 1; return 0; } EXPORT_SYMBOL(elv_rq_merge_ok); static inline int elv_try_merge(struct request *__rq, struct bio *bio) { int ret = ELEVATOR_NO_MERGE; /* * we can merge and sequence is ok, check if it's possible */ if (elv_rq_merge_ok(__rq, bio)) { if (__rq->sector + __rq->nr_sectors == bio->bi_sector) ret = ELEVATOR_BACK_MERGE; else if (__rq->sector - bio_sectors(bio) == bio->bi_sector) ret = ELEVATOR_FRONT_MERGE; } return ret; } static struct elevator_type *elevator_find(const char *name) { struct elevator_type *e = NULL; struct list_head *entry; list_for_each(entry, &elv_list) { struct elevator_type *__e; __e = list_entry(entry, struct elevator_type, list); if (!strcmp(__e->elevator_name, name)) { e = __e; break; } } return e; } static void elevator_put(struct elevator_type *e) { module_put(e->elevator_owner); } static struct elevator_type *elevator_get(const char *name) { struct elevator_type *e; spin_lock_irq(&elv_list_lock); e = elevator_find(name); if (e && !try_module_get(e->elevator_owner)) e = NULL; spin_unlock_irq(&elv_list_lock); return e; } static int elevator_attach(request_queue_t *q, struct elevator_type *e, struct elevator_queue *eq) { int ret = 0; memset(eq, 0, sizeof(*eq)); eq->ops = &e->ops; eq->elevator_type = e; q->elevator = eq; if (eq->ops->elevator_init_fn) ret = eq->ops->elevator_init_fn(q, eq); return ret; } static char chosen_elevator[16]; static int __init elevator_setup(char *str) { /* * Be backwards-compatible with previous kernels, so users * won't get the wrong elevator. */ if (!strcmp(str, "as")) strcpy(chosen_elevator, "anticipatory"); else strncpy(chosen_elevator, str, sizeof(chosen_elevator) - 1); return 0; } __setup("elevator=", elevator_setup); int elevator_init(request_queue_t *q, char *name) { struct elevator_type *e = NULL; struct elevator_queue *eq; int ret = 0; INIT_LIST_HEAD(&q->queue_head); q->last_merge = NULL; q->end_sector = 0; q->boundary_rq = NULL; if (name && !(e = elevator_get(name))) return -EINVAL; if (!e && *chosen_elevator && !(e = elevator_get(chosen_elevator))) printk("I/O scheduler %s not found\n", chosen_elevator); if (!e && !(e = elevator_get(CONFIG_DEFAULT_IOSCHED))) { printk("Default I/O scheduler not found, using no-op\n"); e = elevator_get("noop"); } eq = kmalloc(sizeof(struct elevator_queue), GFP_KERNEL); if (!eq) { elevator_put(e); return -ENOMEM; } ret = elevator_attach(q, e, eq); if (ret) { kfree(eq); elevator_put(e); } return ret; } void elevator_exit(elevator_t *e) { if (e->ops->elevator_exit_fn) e->ops->elevator_exit_fn(e); elevator_put(e->elevator_type); e->elevator_type = NULL; kfree(e); } /* * Insert rq into dispatch queue of q. Queue lock must be held on * entry. If sort != 0, rq is sort-inserted; otherwise, rq will be * appended to the dispatch queue. To be used by specific elevators. */ void elv_dispatch_sort(request_queue_t *q, struct request *rq) { sector_t boundary; struct list_head *entry; if (q->last_merge == rq) q->last_merge = NULL; q->nr_sorted--; boundary = q->end_sector; list_for_each_prev(entry, &q->queue_head) { struct request *pos = list_entry_rq(entry); if (pos->flags & (REQ_SOFTBARRIER|REQ_HARDBARRIER|REQ_STARTED)) break; if (rq->sector >= boundary) { if (pos->sector < boundary) continue; } else { if (pos->sector >= boundary) break; } if (rq->sector >= pos->sector) break; } list_add(&rq->queuelist, entry); } int elv_merge(request_queue_t *q, struct request **req, struct bio *bio) { elevator_t *e = q->elevator; int ret; if (q->last_merge) { ret = elv_try_merge(q->last_merge, bio); if (ret != ELEVATOR_NO_MERGE) { *req = q->last_merge; return ret; } } if (e->ops->elevator_merge_fn) return e->ops->elevator_merge_fn(q, req, bio); return ELEVATOR_NO_MERGE; } void elv_merged_request(request_queue_t *q, struct request *rq) { elevator_t *e = q->elevator; if (e->ops->elevator_merged_fn) e->ops->elevator_merged_fn(q, rq); q->last_merge = rq; } void elv_merge_requests(request_queue_t *q, struct request *rq, struct request *next) { elevator_t *e = q->elevator; if (e->ops->elevator_merge_req_fn) e->ops->elevator_merge_req_fn(q, rq, next); q->nr_sorted--; q->last_merge = rq; } void elv_requeue_request(request_queue_t *q, struct request *rq) { elevator_t *e = q->elevator; /* * it already went through dequeue, we need to decrement the * in_flight count again */ if (blk_account_rq(rq)) { q->in_flight--; if (blk_sorted_rq(rq) && e->ops->elevator_deactivate_req_fn) e->ops->elevator_deactivate_req_fn(q, rq); } rq->flags &= ~REQ_STARTED; elv_insert(q, rq, ELEVATOR_INSERT_REQUEUE); } static void elv_drain_elevator(request_queue_t *q) { static int printed; while (q->elevator->ops->elevator_dispatch_fn(q, 1)) ; if (q->nr_sorted == 0) return; if (printed++ < 10) { printk(KERN_ERR "%s: forced dispatching is broken " "(nr_sorted=%u), please report this\n", q->elevator->elevator_type->elevator_name, q->nr_sorted); } } void elv_insert(request_queue_t *q, struct request *rq, int where) { struct list_head *pos; unsigned ordseq; int unplug_it = 1; rq->q = q; switch (where) { case ELEVATOR_INSERT_FRONT: rq->flags |= REQ_SOFTBARRIER; list_add(&rq->queuelist, &q->queue_head); break; case ELEVATOR_INSERT_BACK: rq->flags |= REQ_SOFTBARRIER; elv_drain_elevator(q); list_add_tail(&rq->queuelist, &q->queue_head); /* * We kick the queue here for the following reasons. * - The elevator might have returned NULL previously * to delay requests and returned them now. As the * queue wasn't empty before this request, ll_rw_blk * won't run the queue on return, resulting in hang. * - Usually, back inserted requests won't be merged * with anything. There's no point in delaying queue * processing. */ blk_remove_plug(q); q->request_fn(q); break; case ELEVATOR_INSERT_SORT: BUG_ON(!blk_fs_request(rq)); rq->flags |= REQ_SORTED; q->nr_sorted++; if (q->last_merge == NULL && rq_mergeable(rq)) q->last_merge = rq; /* * Some ioscheds (cfq) run q->request_fn directly, so * rq cannot be accessed after calling * elevator_add_req_fn. */ q->elevator->ops->elevator_add_req_fn(q, rq); break; case ELEVATOR_INSERT_REQUEUE: /* * If ordered flush isn't in progress, we do front * insertion; otherwise, requests should be requeued * in ordseq order. */ rq->flags |= REQ_SOFTBARRIER; /* * Most requeues happen because of a busy condition, * don't force unplug of the queue for that case. */ unplug_it = 0; if (q->ordseq == 0) { list_add(&rq->queuelist, &q->queue_head); break; } ordseq = blk_ordered_req_seq(rq); list_for_each(pos, &q->queue_head) { struct request *pos_rq = list_entry_rq(pos); if (ordseq <= blk_ordered_req_seq(pos_rq)) break; } list_add_tail(&rq->queuelist, pos); break; default: printk(KERN_ERR "%s: bad insertion point %d\n", __FUNCTION__, where); BUG(); } if (unplug_it && blk_queue_plugged(q)) { int nrq = q->rq.count[READ] + q->rq.count[WRITE] - q->in_flight; if (nrq >= q->unplug_thresh) __generic_unplug_device(q); } } void __elv_add_request(request_queue_t *q, struct request *rq, int where, int plug) { if (q->ordcolor) rq->flags |= REQ_ORDERED_COLOR; if (rq->flags & (REQ_SOFTBARRIER | REQ_HARDBARRIER)) { /* * toggle ordered color */ if (blk_barrier_rq(rq)) q->ordcolor ^= 1; /* * barriers implicitly indicate back insertion */ if (where == ELEVATOR_INSERT_SORT) where = ELEVATOR_INSERT_BACK; /* * this request is scheduling boundary, update * end_sector */ if (blk_fs_request(rq)) { q->end_sector = rq_end_sector(rq); q->boundary_rq = rq; } } else if (!(rq->flags & REQ_ELVPRIV) && where == ELEVATOR_INSERT_SORT) where = ELEVATOR_INSERT_BACK; if (plug) blk_plug_device(q); elv_insert(q, rq, where); } void elv_add_request(request_queue_t *q, struct request *rq, int where, int plug) { unsigned long flags; spin_lock_irqsave(q->queue_lock, flags); __elv_add_request(q, rq, where, plug); spin_unlock_irqrestore(q->queue_lock, flags); } static inline struct request *__elv_next_request(request_queue_t *q) { struct request *rq; while (1) { while (!list_empty(&q->queue_head)) { rq = list_entry_rq(q->queue_head.next); if (blk_do_ordered(q, &rq)) return rq; } if (!q->elevator->ops->elevator_dispatch_fn(q, 0)) return NULL; } } struct request *elv_next_request(request_queue_t *q) { struct request *rq; int ret; while ((rq = __elv_next_request(q)) != NULL) { if (!(rq->flags & REQ_STARTED)) { elevator_t *e = q->elevator; /* * This is the first time the device driver * sees this request (possibly after * requeueing). Notify IO scheduler. */ if (blk_sorted_rq(rq) && e->ops->elevator_activate_req_fn) e->ops->elevator_activate_req_fn(q, rq); /* * just mark as started even if we don't start * it, a request that has been delayed should * not be passed by new incoming requests */ rq->flags |= REQ_STARTED; } if (!q->boundary_rq || q->boundary_rq == rq) { q->end_sector = rq_end_sector(rq); q->boundary_rq = NULL; } if ((rq->flags & REQ_DONTPREP) || !q->prep_rq_fn) break; ret = q->prep_rq_fn(q, rq); if (ret == BLKPREP_OK) { break; } else if (ret == BLKPREP_DEFER) { /* * the request may have been (partially) prepped. * we need to keep this request in the front to * avoid resource deadlock. REQ_STARTED will * prevent other fs requests from passing this one. */ rq = NULL; break; } else if (ret == BLKPREP_KILL) { int nr_bytes = rq->hard_nr_sectors << 9; if (!nr_bytes) nr_bytes = rq->data_len; blkdev_dequeue_request(rq); rq->flags |= REQ_QUIET; end_that_request_chunk(rq, 0, nr_bytes); end_that_request_last(rq, 0); } else { printk(KERN_ERR "%s: bad return=%d\n", __FUNCTION__, ret); break; } } return rq; } void elv_dequeue_request(request_queue_t *q, struct request *rq) { BUG_ON(list_empty(&rq->queuelist)); list_del_init(&rq->queuelist); /* * the time frame between a request being removed from the lists * and to it is freed is accounted as io that is in progress at * the driver side. */ if (blk_account_rq(rq)) q->in_flight++; } int elv_queue_empty(request_queue_t *q) { elevator_t *e = q->elevator; if (!list_empty(&q->queue_head)) return 0; if (e->ops->elevator_queue_empty_fn) return e->ops->elevator_queue_empty_fn(q); return 1; } struct request *elv_latter_request(request_queue_t *q, struct request *rq) { elevator_t *e = q->elevator; if (e->ops->elevator_latter_req_fn) return e->ops->elevator_latter_req_fn(q, rq); return NULL; } struct request *elv_former_request(request_queue_t *q, struct request *rq) { elevator_t *e = q->elevator; if (e->ops->elevator_former_req_fn) return e->ops->elevator_former_req_fn(q, rq); return NULL; } int elv_set_request(request_queue_t *q, struct request *rq, struct bio *bio, gfp_t gfp_mask) { elevator_t *e = q->elevator; if (e->ops->elevator_set_req_fn) return e->ops->elevator_set_req_fn(q, rq, bio, gfp_mask); rq->elevator_private = NULL; return 0; } void elv_put_request(request_queue_t *q, struct request *rq) { elevator_t *e = q->elevator; if (e->ops->elevator_put_req_fn) e->ops->elevator_put_req_fn(q, rq); } int elv_may_queue(request_queue_t *q, int rw, struct bio *bio) { elevator_t *e = q->elevator; if (e->ops->elevator_may_queue_fn) return e->ops->elevator_may_queue_fn(q, rw, bio); return ELV_MQUEUE_MAY; } void elv_completed_request(request_queue_t *q, struct request *rq) { elevator_t *e = q->elevator; /* * request is released from the driver, io must be done */ if (blk_account_rq(rq)) { q->in_flight--; if (blk_sorted_rq(rq) && e->ops->elevator_completed_req_fn) e->ops->elevator_completed_req_fn(q, rq); } /* * Check if the queue is waiting for fs requests to be * drained for flush sequence. */ if (unlikely(q->ordseq)) { struct request *first_rq = list_entry_rq(q->queue_head.next); if (q->in_flight == 0 && blk_ordered_cur_seq(q) == QUEUE_ORDSEQ_DRAIN && blk_ordered_req_seq(first_rq) > QUEUE_ORDSEQ_DRAIN) { blk_ordered_complete_seq(q, QUEUE_ORDSEQ_DRAIN, 0); q->request_fn(q); } } } int elv_register_queue(struct request_queue *q) { elevator_t *e = q->elevator; e->kobj.parent = kobject_get(&q->kobj); if (!e->kobj.parent) return -EBUSY; snprintf(e->kobj.name, KOBJ_NAME_LEN, "%s", "iosched"); e->kobj.ktype = e->elevator_type->elevator_ktype; return kobject_register(&e->kobj); } void elv_unregister_queue(struct request_queue *q) { if (q) { elevator_t *e = q->elevator; kobject_unregister(&e->kobj); kobject_put(&q->kobj); } } int elv_register(struct elevator_type *e) { spin_lock_irq(&elv_list_lock); if (elevator_find(e->elevator_name)) BUG(); list_add_tail(&e->list, &elv_list); spin_unlock_irq(&elv_list_lock); printk(KERN_INFO "io scheduler %s registered", e->elevator_name); if (!strcmp(e->elevator_name, chosen_elevator) || (!*chosen_elevator && !strcmp(e->elevator_name, CONFIG_DEFAULT_IOSCHED))) printk(" (default)"); printk("\n"); return 0; } EXPORT_SYMBOL_GPL(elv_register); void elv_unregister(struct elevator_type *e) { struct task_struct *g, *p; /* * Iterate every thread in the process to remove the io contexts. */ read_lock(&tasklist_lock); do_each_thread(g, p) { struct io_context *ioc = p->io_context; if (ioc && ioc->cic) { ioc->cic->exit(ioc->cic); ioc->cic->dtor(ioc->cic); ioc->cic = NULL; } if (ioc && ioc->aic) { ioc->aic->exit(ioc->aic); ioc->aic->dtor(ioc->aic); ioc->aic = NULL; } } while_each_thread(g, p); read_unlock(&tasklist_lock); spin_lock_irq(&elv_list_lock); list_del_init(&e->list); spin_unlock_irq(&elv_list_lock); } EXPORT_SYMBOL_GPL(elv_unregister); /* * switch to new_e io scheduler. be careful not to introduce deadlocks - * we don't free the old io scheduler, before we have allocated what we * need for the new one. this way we have a chance of going back to the old * one, if the new one fails init for some reason. */ static void elevator_switch(request_queue_t *q, struct elevator_type *new_e) { elevator_t *old_elevator, *e; /* * Allocate new elevator */ e = kmalloc(sizeof(elevator_t), GFP_KERNEL); if (!e) goto error; /* * Turn on BYPASS and drain all requests w/ elevator private data */ spin_lock_irq(q->queue_lock); set_bit(QUEUE_FLAG_ELVSWITCH, &q->queue_flags); elv_drain_elevator(q); while (q->rq.elvpriv) { blk_remove_plug(q); q->request_fn(q); spin_unlock_irq(q->queue_lock); msleep(10); spin_lock_irq(q->queue_lock); elv_drain_elevator(q); } spin_unlock_irq(q->queue_lock); /* * unregister old elevator data */ elv_unregister_queue(q); old_elevator = q->elevator; /* * attach and start new elevator */ if (elevator_attach(q, new_e, e)) goto fail; if (elv_register_queue(q)) goto fail_register; /* * finally exit old elevator and turn off BYPASS. */ elevator_exit(old_elevator); clear_bit(QUEUE_FLAG_ELVSWITCH, &q->queue_flags); return; fail_register: /* * switch failed, exit the new io scheduler and reattach the old * one again (along with re-adding the sysfs dir) */ elevator_exit(e); e = NULL; fail: q->elevator = old_elevator; elv_register_queue(q); clear_bit(QUEUE_FLAG_ELVSWITCH, &q->queue_flags); kfree(e); error: elevator_put(new_e); printk(KERN_ERR "elevator: switch to %s failed\n",new_e->elevator_name); } ssize_t elv_iosched_store(request_queue_t *q, const char *name, size_t count) { char elevator_name[ELV_NAME_MAX]; size_t len; struct elevator_type *e; elevator_name[sizeof(elevator_name) - 1] = '\0'; strncpy(elevator_name, name, sizeof(elevator_name) - 1); len = strlen(elevator_name); if (len && elevator_name[len - 1] == '\n') elevator_name[len - 1] = '\0'; e = elevator_get(elevator_name); if (!e) { printk(KERN_ERR "elevator: type %s not found\n", elevator_name); return -EINVAL; } if (!strcmp(elevator_name, q->elevator->elevator_type->elevator_name)) { elevator_put(e); return count; } elevator_switch(q, e); return count; } ssize_t elv_iosched_show(request_queue_t *q, char *name) { elevator_t *e = q->elevator; struct elevator_type *elv = e->elevator_type; struct list_head *entry; int len = 0; spin_lock_irq(&elv_list_lock); list_for_each(entry, &elv_list) { struct elevator_type *__e; __e = list_entry(entry, struct elevator_type, list); if (!strcmp(elv->elevator_name, __e->elevator_name)) len += sprintf(name+len, "[%s] ", elv->elevator_name); else len += sprintf(name+len, "%s ", __e->elevator_name); } spin_unlock_irq(&elv_list_lock); len += sprintf(len+name, "\n"); return len; } EXPORT_SYMBOL(elv_dispatch_sort); EXPORT_SYMBOL(elv_add_request); EXPORT_SYMBOL(__elv_add_request); EXPORT_SYMBOL(elv_requeue_request); EXPORT_SYMBOL(elv_next_request); EXPORT_SYMBOL(elv_dequeue_request); EXPORT_SYMBOL(elv_queue_empty); EXPORT_SYMBOL(elv_completed_request); EXPORT_SYMBOL(elevator_exit); EXPORT_SYMBOL(elevator_init); |