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f03f7a0ca3
Add the BIO_ORDERED flag for struct bio and update bio clients to use it. The barrier semantics of bioq_insert_tail() were broken in two ways: o In bioq_disksort(), an added bio could be inserted at the head of the queue, even when a barrier was present, if the sort key for the new entry was less than that of the last queued barrier bio. o The last_offset used to generate the sort key for newly queued bios did not stay at the position of the barrier until either the barrier was de-queued, or a new barrier (which updates last_offset) was queued. When a barrier is in effect, we know that the disk will pass through the barrier position just before the "blocked bios" are released, so using the barrier's offset for last_offset is the optimal choice. sys/geom/sched/subr_disk.c: sys/kern/subr_disk.c: o Update last_offset in bioq_insert_tail(). o Only update last_offset in bioq_remove() if the removed bio is at the head of the queue (typically due to a call via bioq_takefirst()) and no barrier is active. o In bioq_disksort(), if we have a barrier (insert_point is non-NULL), set prev to the barrier and cur to it's next element. Now that last_offset is kept at the barrier position, this change isn't strictly necessary, but since we have to take a decision branch anyway, it does avoid one, no-op, loop iteration in the while loop that immediately follows. o In bioq_disksort(), bypass the normal sort for bios with the BIO_ORDERED attribute and instead insert them into the queue with bioq_insert_tail(). bioq_insert_tail() not only gives the desired command order during insertion, but also provides barrier semantics so that commands disksorted in the future cannot pass the just enqueued transaction. sys/sys/bio.h: Add BIO_ORDERED as bit 4 of the bio_flags field in struct bio. sys/cam/ata/ata_da.c: sys/cam/scsi/scsi_da.c Use an ordered command for SCSI/ATA-NCQ commands issued in response to bios with the BIO_ORDERED flag set. sys/cam/scsi/scsi_da.c Use an ordered tag when issuing a synchronize cache command. Wrap some lines to 80 columns. sys/cddl/contrib/opensolaris/uts/common/fs/zfs/vdev_geom.c sys/geom/geom_io.c Mark bios with the BIO_FLUSH command as BIO_ORDERED. Sponsored by: Spectra Logic Corporation MFC after: 1 month
268 lines
7.7 KiB
C
268 lines
7.7 KiB
C
/*-
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* ----------------------------------------------------------------------------
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* "THE BEER-WARE LICENSE" (Revision 42):
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* <phk@FreeBSD.ORG> wrote this file. As long as you retain this notice you
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* can do whatever you want with this stuff. If we meet some day, and you think
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* this stuff is worth it, you can buy me a beer in return. Poul-Henning Kamp
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* ----------------------------------------------------------------------------
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*
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* The bioq_disksort() (and the specification of the bioq API)
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* have been written by Luigi Rizzo and Fabio Checconi under the same
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* license as above.
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*/
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#include <sys/cdefs.h>
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__FBSDID("$FreeBSD$");
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#include "opt_geom.h"
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#include <sys/param.h>
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#include <sys/systm.h>
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#include <sys/bio.h>
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#include <sys/conf.h>
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#include <sys/disk.h>
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#include <geom/geom_disk.h>
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/*-
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* Disk error is the preface to plaintive error messages
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* about failing disk transfers. It prints messages of the form
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* "hp0g: BLABLABLA cmd=read fsbn 12345 of 12344-12347"
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* blkdone should be -1 if the position of the error is unknown.
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* The message is printed with printf.
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*/
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void
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disk_err(struct bio *bp, const char *what, int blkdone, int nl)
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{
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daddr_t sn;
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if (bp->bio_dev != NULL)
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printf("%s: %s ", devtoname(bp->bio_dev), what);
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else if (bp->bio_disk != NULL)
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printf("%s%d: %s ",
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bp->bio_disk->d_name, bp->bio_disk->d_unit, what);
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else
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printf("disk??: %s ", what);
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switch(bp->bio_cmd) {
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case BIO_READ: printf("cmd=read "); break;
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case BIO_WRITE: printf("cmd=write "); break;
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case BIO_DELETE: printf("cmd=delete "); break;
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case BIO_GETATTR: printf("cmd=getattr "); break;
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case BIO_FLUSH: printf("cmd=flush "); break;
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default: printf("cmd=%x ", bp->bio_cmd); break;
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}
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sn = bp->bio_pblkno;
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if (bp->bio_bcount <= DEV_BSIZE) {
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printf("fsbn %jd%s", (intmax_t)sn, nl ? "\n" : "");
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return;
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}
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if (blkdone >= 0) {
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sn += blkdone;
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printf("fsbn %jd of ", (intmax_t)sn);
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}
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printf("%jd-%jd", (intmax_t)bp->bio_pblkno,
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(intmax_t)(bp->bio_pblkno + (bp->bio_bcount - 1) / DEV_BSIZE));
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if (nl)
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printf("\n");
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}
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/*
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* BIO queue implementation
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*
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* Please read carefully the description below before making any change
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* to the code, or you might change the behaviour of the data structure
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* in undesirable ways.
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*
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* A bioq stores disk I/O request (bio), normally sorted according to
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* the distance of the requested position (bio->bio_offset) from the
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* current head position (bioq->last_offset) in the scan direction, i.e.
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*
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* (uoff_t)(bio_offset - last_offset)
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*
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* Note that the cast to unsigned (uoff_t) is fundamental to insure
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* that the distance is computed in the scan direction.
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*
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* The main methods for manipulating the bioq are:
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*
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* bioq_disksort() performs an ordered insertion;
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*
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* bioq_first() return the head of the queue, without removing;
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*
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* bioq_takefirst() return and remove the head of the queue,
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* updating the 'current head position' as
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* bioq->last_offset = bio->bio_offset + bio->bio_length;
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*
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* When updating the 'current head position', we assume that the result of
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* bioq_takefirst() is dispatched to the device, so bioq->last_offset
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* represents the head position once the request is complete.
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*
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* If the bioq is manipulated using only the above calls, it starts
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* with a sorted sequence of requests with bio_offset >= last_offset,
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* possibly followed by another sorted sequence of requests with
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* 0 <= bio_offset < bioq->last_offset
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*
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* NOTE: historical behaviour was to ignore bio->bio_length in the
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* update, but its use tracks the head position in a better way.
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* Historical behaviour was also to update the head position when
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* the request under service is complete, rather than when the
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* request is extracted from the queue. However, the current API
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* has no method to update the head position; secondly, once
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* a request has been submitted to the disk, we have no idea of
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* the actual head position, so the final one is our best guess.
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*
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* --- Direct queue manipulation ---
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*
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* A bioq uses an underlying TAILQ to store requests, so we also
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* export methods to manipulate the TAILQ, in particular:
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*
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* bioq_insert_tail() insert an entry at the end.
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* It also creates a 'barrier' so all subsequent
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* insertions through bioq_disksort() will end up
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* after this entry;
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*
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* bioq_insert_head() insert an entry at the head, update
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* bioq->last_offset = bio->bio_offset so that
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* all subsequent insertions through bioq_disksort()
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* will end up after this entry;
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*
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* bioq_remove() remove a generic element from the queue, act as
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* bioq_takefirst() if invoked on the head of the queue.
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*
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* The semantic of these methods is the same as the operations
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* on the underlying TAILQ, but with additional guarantees on
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* subsequent bioq_disksort() calls. E.g. bioq_insert_tail()
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* can be useful for making sure that all previous ops are flushed
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* to disk before continuing.
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*
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* Updating bioq->last_offset on a bioq_insert_head() guarantees
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* that the bio inserted with the last bioq_insert_head() will stay
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* at the head of the queue even after subsequent bioq_disksort().
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*
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* Note that when the direct queue manipulation functions are used,
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* the queue may contain multiple inversion points (i.e. more than
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* two sorted sequences of requests).
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*
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*/
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void
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bioq_init(struct bio_queue_head *head)
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{
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TAILQ_INIT(&head->queue);
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head->last_offset = 0;
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head->insert_point = NULL;
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}
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void
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bioq_remove(struct bio_queue_head *head, struct bio *bp)
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{
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if (head->insert_point == NULL) {
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if (bp == TAILQ_FIRST(&head->queue))
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head->last_offset = bp->bio_offset + bp->bio_length;
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} else if (bp == head->insert_point)
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head->insert_point = NULL;
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TAILQ_REMOVE(&head->queue, bp, bio_queue);
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}
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void
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bioq_flush(struct bio_queue_head *head, struct devstat *stp, int error)
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{
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struct bio *bp;
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while ((bp = bioq_takefirst(head)) != NULL)
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biofinish(bp, stp, error);
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}
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void
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bioq_insert_head(struct bio_queue_head *head, struct bio *bp)
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{
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if (head->insert_point == NULL)
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head->last_offset = bp->bio_offset;
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TAILQ_INSERT_HEAD(&head->queue, bp, bio_queue);
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}
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void
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bioq_insert_tail(struct bio_queue_head *head, struct bio *bp)
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{
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TAILQ_INSERT_TAIL(&head->queue, bp, bio_queue);
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head->insert_point = bp;
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head->last_offset = bp->bio_offset;
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}
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struct bio *
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bioq_first(struct bio_queue_head *head)
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{
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return (TAILQ_FIRST(&head->queue));
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}
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struct bio *
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bioq_takefirst(struct bio_queue_head *head)
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{
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struct bio *bp;
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bp = TAILQ_FIRST(&head->queue);
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if (bp != NULL)
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bioq_remove(head, bp);
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return (bp);
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}
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/*
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* Compute the sorting key. The cast to unsigned is
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* fundamental for correctness, see the description
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* near the beginning of the file.
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*/
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static inline uoff_t
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bioq_bio_key(struct bio_queue_head *head, struct bio *bp)
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{
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return ((uoff_t)(bp->bio_offset - head->last_offset));
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}
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/*
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* Seek sort for disks.
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*
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* Sort all requests in a single queue while keeping
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* track of the current position of the disk with last_offset.
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* See above for details.
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*/
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void
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bioq_disksort(struct bio_queue_head *head, struct bio *bp)
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{
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struct bio *cur, *prev;
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uoff_t key;
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if ((bp->bio_flags & BIO_ORDERED) != 0) {
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/*
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* Ordered transactions can only be dispatched
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* after any currently queued transactions. They
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* also have barrier semantics - no transactions
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* queued in the future can pass them.
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*/
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bioq_insert_tail(head, bp);
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return;
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}
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prev = NULL;
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key = bioq_bio_key(head, bp);
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cur = TAILQ_FIRST(&head->queue);
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if (head->insert_point) {
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prev = head->insert_point;
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cur = TAILQ_NEXT(head->insert_point, bio_queue);
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}
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while (cur != NULL && key >= bioq_bio_key(head, cur)) {
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prev = cur;
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cur = TAILQ_NEXT(cur, bio_queue);
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}
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if (prev == NULL)
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TAILQ_INSERT_HEAD(&head->queue, bp, bio_queue);
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else
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TAILQ_INSERT_AFTER(&head->queue, prev, bp, bio_queue);
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}
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