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block/blk-flush.c
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// SPDX-License-Identifier: GPL-2.0 |
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/* |
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* Functions to sequence PREFLUSH and FUA writes. |
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* * Copyright (C) 2011 Max Planck Institute for Gravitational Physics * Copyright (C) 2011 Tejun Heo <tj@kernel.org> * |
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* REQ_{PREFLUSH|FUA} requests are decomposed to sequences consisted of three |
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* optional steps - PREFLUSH, DATA and POSTFLUSH - according to the request * properties and hardware capability. * |
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* If a request doesn't have data, only REQ_PREFLUSH makes sense, which * indicates a simple flush request. If there is data, REQ_PREFLUSH indicates |
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* that the device cache should be flushed before the data is executed, and * REQ_FUA means that the data must be on non-volatile media on request * completion. * |
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* If the device doesn't have writeback cache, PREFLUSH and FUA don't make any * difference. The requests are either completed immediately if there's no data * or executed as normal requests otherwise. |
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* |
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* If the device has writeback cache and supports FUA, REQ_PREFLUSH is |
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* translated to PREFLUSH but REQ_FUA is passed down directly with DATA. * |
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* If the device has writeback cache and doesn't support FUA, REQ_PREFLUSH * is translated to PREFLUSH and REQ_FUA to POSTFLUSH. |
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* * The actual execution of flush is double buffered. Whenever a request * needs to execute PRE or POSTFLUSH, it queues at |
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* fq->flush_queue[fq->flush_pending_idx]. Once certain criteria are met, a |
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* REQ_OP_FLUSH is issued and the pending_idx is toggled. When the flush |
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* completes, all the requests which were pending are proceeded to the next |
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* step. This allows arbitrary merging of different types of PREFLUSH/FUA |
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* requests. * * Currently, the following conditions are used to determine when to issue * flush. * * C1. At any given time, only one flush shall be in progress. This makes * double buffering sufficient. * * C2. Flush is deferred if any request is executing DATA of its sequence. * This avoids issuing separate POSTFLUSHes for requests which shared * PREFLUSH. * * C3. The second condition is ignored if there is a request which has * waited longer than FLUSH_PENDING_TIMEOUT. This is to avoid * starvation in the unlikely case where there are continuous stream of |
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* FUA (without PREFLUSH) requests. |
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* * For devices which support FUA, it isn't clear whether C2 (and thus C3) * is beneficial. * |
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* Note that a sequenced PREFLUSH/FUA request with DATA is completed twice. |
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* Once while executing DATA and again after the whole sequence is * complete. The first completion updates the contained bio but doesn't * finish it so that the bio submitter is notified only after the whole |
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* sequence is complete. This is implemented by testing RQF_FLUSH_SEQ in |
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* req_bio_endio(). * |
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* The above peculiarity requires that each PREFLUSH/FUA request has only one |
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* bio attached to it, which is guaranteed as they aren't allowed to be * merged in the usual way. |
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*/ |
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#include <linux/kernel.h> #include <linux/module.h> #include <linux/bio.h> #include <linux/blkdev.h> |
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#include <linux/gfp.h> |
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#include <linux/blk-mq.h> |
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#include <linux/lockdep.h> |
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#include "blk.h" |
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#include "blk-mq.h" |
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#include "blk-mq-tag.h" |
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#include "blk-mq-sched.h" |
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/* PREFLUSH/FUA sequences */ |
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enum { |
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REQ_FSEQ_PREFLUSH = (1 << 0), /* pre-flushing in progress */ REQ_FSEQ_DATA = (1 << 1), /* data write in progress */ REQ_FSEQ_POSTFLUSH = (1 << 2), /* post-flushing in progress */ REQ_FSEQ_DONE = (1 << 3), REQ_FSEQ_ACTIONS = REQ_FSEQ_PREFLUSH | REQ_FSEQ_DATA | REQ_FSEQ_POSTFLUSH, /* * If flush has been pending longer than the following timeout, * it's issued even if flush_data requests are still in flight. */ FLUSH_PENDING_TIMEOUT = 5 * HZ, |
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}; |
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static void blk_kick_flush(struct request_queue *q, |
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struct blk_flush_queue *fq, unsigned int flags); |
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static unsigned int blk_flush_policy(unsigned long fflags, struct request *rq) |
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{ |
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unsigned int policy = 0; |
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if (blk_rq_sectors(rq)) policy |= REQ_FSEQ_DATA; |
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if (fflags & (1UL << QUEUE_FLAG_WC)) { |
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if (rq->cmd_flags & REQ_PREFLUSH) |
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policy |= REQ_FSEQ_PREFLUSH; |
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if (!(fflags & (1UL << QUEUE_FLAG_FUA)) && (rq->cmd_flags & REQ_FUA)) |
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policy |= REQ_FSEQ_POSTFLUSH; |
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} |
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return policy; |
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} |
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static unsigned int blk_flush_cur_seq(struct request *rq) |
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{ |
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return 1 << ffz(rq->flush.seq); } |
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static void blk_flush_restore_request(struct request *rq) { |
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/* |
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* After flush data completion, @rq->bio is %NULL but we need to * complete the bio again. @rq->biotail is guaranteed to equal the * original @rq->bio. Restore it. |
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*/ |
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rq->bio = rq->biotail; /* make @rq a normal request */ |
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rq->rq_flags &= ~RQF_FLUSH_SEQ; |
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rq->end_io = rq->flush.saved_end_io; |
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} |
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static void blk_flush_queue_rq(struct request *rq, bool add_front) |
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{ |
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blk_mq_add_to_requeue_list(rq, add_front, true); |
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} |
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/** * blk_flush_complete_seq - complete flush sequence |
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* @rq: PREFLUSH/FUA request being sequenced |
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* @fq: flush queue |
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* @seq: sequences to complete (mask of %REQ_FSEQ_*, can be zero) * @error: whether an error occurred * * @rq just completed @seq part of its flush sequence, record the * completion and trigger the next step. * * CONTEXT: |
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* spin_lock_irq(fq->mq_flush_lock) |
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* * RETURNS: * %true if requests were added to the dispatch queue, %false otherwise. */ |
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static void blk_flush_complete_seq(struct request *rq, |
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struct blk_flush_queue *fq, |
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unsigned int seq, blk_status_t error) |
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{ |
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struct request_queue *q = rq->q; |
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struct list_head *pending = &fq->flush_queue[fq->flush_pending_idx]; |
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unsigned int cmd_flags; |
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BUG_ON(rq->flush.seq & seq); rq->flush.seq |= seq; |
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cmd_flags = rq->cmd_flags; |
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if (likely(!error)) seq = blk_flush_cur_seq(rq); else seq = REQ_FSEQ_DONE; switch (seq) { case REQ_FSEQ_PREFLUSH: case REQ_FSEQ_POSTFLUSH: /* queue for flush */ if (list_empty(pending)) |
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fq->flush_pending_since = jiffies; |
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list_move_tail(&rq->flush.list, pending); break; case REQ_FSEQ_DATA: |
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list_move_tail(&rq->flush.list, &fq->flush_data_in_flight); |
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blk_flush_queue_rq(rq, true); |
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break; case REQ_FSEQ_DONE: /* * @rq was previously adjusted by blk_flush_issue() for * flush sequencing and may already have gone through the * flush data request completion path. Restore @rq for * normal completion and end it. */ BUG_ON(!list_empty(&rq->queuelist)); list_del_init(&rq->flush.list); blk_flush_restore_request(rq); |
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blk_mq_end_request(rq, error); |
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break; default: BUG(); } |
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blk_kick_flush(q, fq, cmd_flags); |
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} |
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static void flush_end_io(struct request *flush_rq, blk_status_t error) |
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{ |
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struct request_queue *q = flush_rq->q; |
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struct list_head *running; |
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struct request *rq, *n; |
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unsigned long flags = 0; |
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struct blk_flush_queue *fq = blk_get_flush_queue(q, flush_rq->mq_ctx); |
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struct blk_mq_hw_ctx *hctx; |
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/* release the tag's ownership to the req cloned from */ spin_lock_irqsave(&fq->mq_flush_lock, flags); |
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if (!refcount_dec_and_test(&flush_rq->ref)) { fq->rq_status = error; spin_unlock_irqrestore(&fq->mq_flush_lock, flags); return; } if (fq->rq_status != BLK_STS_OK) error = fq->rq_status; |
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hctx = flush_rq->mq_hctx; |
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if (!q->elevator) { blk_mq_tag_set_rq(hctx, flush_rq->tag, fq->orig_rq); flush_rq->tag = -1; } else { |
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blk_mq_put_driver_tag(flush_rq); |
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flush_rq->internal_tag = -1; |
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} |
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running = &fq->flush_queue[fq->flush_running_idx]; BUG_ON(fq->flush_pending_idx == fq->flush_running_idx); |
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/* account completion of the flush request */ |
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fq->flush_running_idx ^= 1; |
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/* and push the waiting requests to the next stage */ list_for_each_entry_safe(rq, n, running, flush.list) { unsigned int seq = blk_flush_cur_seq(rq); BUG_ON(seq != REQ_FSEQ_PREFLUSH && seq != REQ_FSEQ_POSTFLUSH); |
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blk_flush_complete_seq(rq, fq, seq, error); |
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} |
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fq->flush_queue_delayed = 0; |
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spin_unlock_irqrestore(&fq->mq_flush_lock, flags); |
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} |
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/** * blk_kick_flush - consider issuing flush request * @q: request_queue being kicked |
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* @fq: flush queue |
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* @flags: cmd_flags of the original request |
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* * Flush related states of @q have changed, consider issuing flush request. * Please read the comment at the top of this file for more info. * * CONTEXT: |
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* spin_lock_irq(fq->mq_flush_lock) |
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* |
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*/ |
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static void blk_kick_flush(struct request_queue *q, struct blk_flush_queue *fq, |
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unsigned int flags) |
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{ |
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struct list_head *pending = &fq->flush_queue[fq->flush_pending_idx]; |
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struct request *first_rq = list_first_entry(pending, struct request, flush.list); |
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struct request *flush_rq = fq->flush_rq; |
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/* C1 described at the top of this file */ |
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if (fq->flush_pending_idx != fq->flush_running_idx || list_empty(pending)) |
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return; |
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/* C2 and C3 * * For blk-mq + scheduling, we can risk having all driver tags * assigned to empty flushes, and we deadlock if we are expecting * other requests to make progress. Don't defer for that case. */ |
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if (!list_empty(&fq->flush_data_in_flight) && q->elevator && |
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time_before(jiffies, |
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fq->flush_pending_since + FLUSH_PENDING_TIMEOUT)) |
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return; |
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/* * Issue flush and toggle pending_idx. This makes pending_idx * different from running_idx, which means flush is in flight. */ |
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fq->flush_pending_idx ^= 1; |
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|
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blk_rq_init(q, flush_rq); |
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/* |
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* In case of none scheduler, borrow tag from the first request * since they can't be in flight at the same time. And acquire * the tag's ownership for flush req. * * In case of IO scheduler, flush rq need to borrow scheduler tag * just for cheating put/get driver tag. |
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*/ |
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flush_rq->mq_ctx = first_rq->mq_ctx; |
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flush_rq->mq_hctx = first_rq->mq_hctx; |
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if (!q->elevator) { fq->orig_rq = first_rq; flush_rq->tag = first_rq->tag; |
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blk_mq_tag_set_rq(flush_rq->mq_hctx, first_rq->tag, flush_rq); |
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} else { flush_rq->internal_tag = first_rq->internal_tag; |
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} |
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flush_rq->cmd_flags = REQ_OP_FLUSH | REQ_PREFLUSH; |
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flush_rq->cmd_flags |= (flags & REQ_DRV) | (flags & REQ_FAILFAST_MASK); |
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flush_rq->rq_flags |= RQF_FLUSH_SEQ; |
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flush_rq->rq_disk = first_rq->rq_disk; flush_rq->end_io = flush_end_io; |
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blk_flush_queue_rq(flush_rq, false); |
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} |
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static void mq_flush_data_end_io(struct request *rq, blk_status_t error) |
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{ struct request_queue *q = rq->q; |
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struct blk_mq_hw_ctx *hctx = rq->mq_hctx; |
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struct blk_mq_ctx *ctx = rq->mq_ctx; |
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unsigned long flags; |
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struct blk_flush_queue *fq = blk_get_flush_queue(q, ctx); |
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if (q->elevator) { WARN_ON(rq->tag < 0); |
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blk_mq_put_driver_tag(rq); |
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} |
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/* * After populating an empty queue, kick it to avoid stall. Read * the comment in flush_end_io(). */ |
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spin_lock_irqsave(&fq->mq_flush_lock, flags); |
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blk_flush_complete_seq(rq, fq, REQ_FSEQ_DATA, error); |
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spin_unlock_irqrestore(&fq->mq_flush_lock, flags); |
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|
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blk_mq_sched_restart(hctx); |
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} |
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/** |
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* blk_insert_flush - insert a new PREFLUSH/FUA request |
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* @rq: request to insert * |
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* To be called from __elv_add_request() for %ELEVATOR_INSERT_FLUSH insertions. |
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* or __blk_mq_run_hw_queue() to dispatch request. |
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* @rq is being submitted. Analyze what needs to be done and put it on the * right queue. |
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*/ void blk_insert_flush(struct request *rq) |
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{ |
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struct request_queue *q = rq->q; |
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unsigned long fflags = q->queue_flags; /* may change, cache */ |
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unsigned int policy = blk_flush_policy(fflags, rq); |
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struct blk_flush_queue *fq = blk_get_flush_queue(q, rq->mq_ctx); |
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|
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/* * @policy now records what operations need to be done. Adjust |
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* REQ_PREFLUSH and FUA for the driver. |
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*/ |
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rq->cmd_flags &= ~REQ_PREFLUSH; |
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if (!(fflags & (1UL << QUEUE_FLAG_FUA))) |
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rq->cmd_flags &= ~REQ_FUA; /* |
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* REQ_PREFLUSH|REQ_FUA implies REQ_SYNC, so if we clear any * of those flags, we have to set REQ_SYNC to avoid skewing * the request accounting. */ rq->cmd_flags |= REQ_SYNC; /* |
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* An empty flush handed down from a stacking driver may * translate into nothing if the underlying device does not * advertise a write-back cache. In this case, simply * complete the request. */ if (!policy) { |
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blk_mq_end_request(rq, 0); |
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return; } |
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BUG_ON(rq->bio != rq->biotail); /*assumes zero or single bio rq */ |
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/* |
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* If there's data but flush is not necessary, the request can be * processed directly without going through flush machinery. Queue * for normal execution. */ if ((policy & REQ_FSEQ_DATA) && !(policy & (REQ_FSEQ_PREFLUSH | REQ_FSEQ_POSTFLUSH))) { |
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blk_mq_request_bypass_insert(rq, false); |
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return; |
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} |
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/* * @rq should go through flush machinery. Mark it part of flush * sequence and submit for further processing. */ memset(&rq->flush, 0, sizeof(rq->flush)); INIT_LIST_HEAD(&rq->flush.list); |
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rq->rq_flags |= RQF_FLUSH_SEQ; |
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rq->flush.saved_end_io = rq->end_io; /* Usually NULL */ |
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|
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rq->end_io = mq_flush_data_end_io; |
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spin_lock_irq(&fq->mq_flush_lock); |
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blk_flush_complete_seq(rq, fq, REQ_FSEQ_ACTIONS & ~policy, 0); |
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spin_unlock_irq(&fq->mq_flush_lock); |
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} |
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/** |
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* blkdev_issue_flush - queue a flush * @bdev: blockdev to issue flush for |
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* @gfp_mask: memory allocation flags (for bio_alloc) |
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* @error_sector: error sector * * Description: * Issue a flush for the block device in question. Caller can supply * room for storing the error offset in case of a flush error, if they |
1be7d2073
|
416 |
* wish to. |
86db1e297
|
417 |
*/ |
fbd9b09a1
|
418 |
int blkdev_issue_flush(struct block_device *bdev, gfp_t gfp_mask, |
dd3932edd
|
419 |
sector_t *error_sector) |
86db1e297
|
420 |
{ |
86db1e297
|
421 422 |
struct request_queue *q; struct bio *bio; |
fbd9b09a1
|
423 |
int ret = 0; |
86db1e297
|
424 425 426 427 428 429 430 |
if (bdev->bd_disk == NULL) return -ENXIO; q = bdev_get_queue(bdev); if (!q) return -ENXIO; |
f10d9f617
|
431 432 433 434 |
/* * some block devices may not have their queue correctly set up here * (e.g. loop device without a backing file) and so issuing a flush * here will panic. Ensure there is a request function before issuing |
d391a2dda
|
435 |
* the flush. |
f10d9f617
|
436 437 438 |
*/ if (!q->make_request_fn) return -ENXIO; |
fbd9b09a1
|
439 |
bio = bio_alloc(gfp_mask, 0); |
74d46992e
|
440 |
bio_set_dev(bio, bdev); |
70fd76140
|
441 |
bio->bi_opf = REQ_OP_WRITE | REQ_PREFLUSH; |
86db1e297
|
442 |
|
4e49ea4a3
|
443 |
ret = submit_bio_wait(bio); |
dd3932edd
|
444 445 446 447 448 449 450 |
/* * The driver must store the error location in ->bi_sector, if * it supports it. For non-stacked drivers, this should be * copied from blk_rq_pos(rq). */ if (error_sector) |
4f024f379
|
451 |
*error_sector = bio->bi_iter.bi_sector; |
86db1e297
|
452 |
|
86db1e297
|
453 454 455 |
bio_put(bio); return ret; } |
86db1e297
|
456 |
EXPORT_SYMBOL(blkdev_issue_flush); |
320ae51fe
|
457 |
|
f70ced091
|
458 |
struct blk_flush_queue *blk_alloc_flush_queue(struct request_queue *q, |
5b202853f
|
459 |
int node, int cmd_size, gfp_t flags) |
320ae51fe
|
460 |
{ |
7c94e1c15
|
461 462 |
struct blk_flush_queue *fq; int rq_sz = sizeof(struct request); |
1bcb1eada
|
463 |
|
5b202853f
|
464 |
fq = kzalloc_node(sizeof(*fq), flags, node); |
7c94e1c15
|
465 466 |
if (!fq) goto fail; |
1bcb1eada
|
467 |
|
7e992f847
|
468 |
spin_lock_init(&fq->mq_flush_lock); |
7c94e1c15
|
469 |
|
6d247d7f7
|
470 |
rq_sz = round_up(rq_sz + cmd_size, cache_line_size()); |
5b202853f
|
471 |
fq->flush_rq = kzalloc_node(rq_sz, flags, node); |
7c94e1c15
|
472 473 474 475 476 477 |
if (!fq->flush_rq) goto fail_rq; INIT_LIST_HEAD(&fq->flush_queue[0]); INIT_LIST_HEAD(&fq->flush_queue[1]); INIT_LIST_HEAD(&fq->flush_data_in_flight); |
f7cc2f988
|
478 479 |
lockdep_register_key(&fq->key); lockdep_set_class(&fq->mq_flush_lock, &fq->key); |
7c94e1c15
|
480 481 482 483 484 485 |
return fq; fail_rq: kfree(fq); fail: return NULL; |
320ae51fe
|
486 |
} |
f35526557
|
487 |
|
ba483388e
|
488 |
void blk_free_flush_queue(struct blk_flush_queue *fq) |
f35526557
|
489 |
{ |
7c94e1c15
|
490 491 492 |
/* bio based request queue hasn't flush queue */ if (!fq) return; |
3c09676c1
|
493 |
|
f7cc2f988
|
494 |
lockdep_unregister_key(&fq->key); |
7c94e1c15
|
495 496 497 |
kfree(fq->flush_rq); kfree(fq); } |