mars/mars_bio.c

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18 KiB
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2011-03-18 13:15:40 +00:00
// (c) 2010 Thomas Schoebel-Theuer / 1&1 Internet AG
2012-02-12 11:19:57 +00:00
// (c) 2010 Thomas Schoebel-Theuer / 1&1 Internet AG
2011-03-18 13:15:40 +00:00
// Bio brick (interface to blkdev IO via kernel bios)
//#define BRICK_DEBUGGING
//#define MARS_DEBUGGING
//#define IO_DEBUGGING
//#define FAKE_IO
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/string.h>
#include <linux/bio.h>
#include <linux/kthread.h>
#include "mars.h"
///////////////////////// own type definitions ////////////////////////
#include "mars_bio.h"
static void bio_ref_put(struct bio_output *output, struct mref_object *mref);
///////////////////////// own helper functions ////////////////////////
/* This is called from the kernel bio layer.
*/
static
void bio_callback(struct bio *bio, int code)
{
struct bio_mref_aspect *mref_a = bio->bi_private;
struct bio_brick *brick;
unsigned long flags;
CHECK_PTR(mref_a, err);
CHECK_PTR(mref_a->output, err);
brick = mref_a->output->brick;
CHECK_PTR(brick, err);
mref_a->status_code = code;
spin_lock_irqsave(&brick->lock, flags);
if (list_empty(&mref_a->io_head)) {
list_add_tail(&mref_a->io_head, &brick->completed_list);
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atomic_inc(&brick->completed_count);
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}
spin_unlock_irqrestore(&brick->lock, flags);
wake_up_interruptible(&brick->event);
return;
err:
MARS_FAT("cannot handle bio callback\n");
}
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/* Map from kernel address/length to struct page (if not already known),
* check alignment constraints, create bio from it.
* Return the length (may be smaller than requested).
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*/
static
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int make_bio(struct bio_brick *brick, void *data, int len, loff_t pos, struct bio_mref_aspect *private, struct bio **_bio)
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{
unsigned long long sector;
int sector_offset;
int data_offset;
int page_offset;
int page_len;
int bvec_count;
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int rest_len = len;
int result_len = 0;
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int status;
int i;
struct bio *bio = NULL;
struct block_device *bdev;
status = -EINVAL;
CHECK_PTR(brick, out);
bdev = brick->bdev;
CHECK_PTR(bdev, out);
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if (unlikely(rest_len <= 0)) {
MARS_ERR("bad bio len %d\n", rest_len);
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goto out;
}
sector = pos >> 9; // TODO: make dynamic
sector_offset = pos & ((1 << 9) - 1); // TODO: make dynamic
data_offset = ((unsigned long)data) & ((1 << 9) - 1); // TODO: make dynamic
if (unlikely(sector_offset > 0)) {
MARS_ERR("odd sector offset %d\n", sector_offset);
goto out;
}
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if (unlikely(sector_offset != data_offset)) {
MARS_ERR("bad alignment: sector_offset %d != data_offet %d\n", sector_offset, data_offset);
goto out;
}
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if (unlikely(rest_len & ((1 << 9) - 1))) {
MARS_ERR("odd length %d\n", rest_len);
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goto out;
}
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page_offset = ((unsigned long)data) & (PAGE_SIZE-1);
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page_len = rest_len + page_offset;
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bvec_count = (page_len - 1) / PAGE_SIZE + 1;
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if (bvec_count > brick->bvec_max) {
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bvec_count = brick->bvec_max;
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}
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MARS_IO("sector_offset = %d data = %p pos = %lld rest_len = %d page_offset = %d page_len = %d bvec_count = %d\n", sector_offset, data, pos, rest_len, page_offset, page_len, bvec_count);
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bio = bio_alloc(GFP_MARS, bvec_count);
status = -ENOMEM;
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if (unlikely(!bio)) {
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goto out;
}
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for (i = 0; i < bvec_count && rest_len > 0; i++) {
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struct page *page;
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int this_rest = PAGE_SIZE - page_offset;
int this_len = rest_len;
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if (this_len > this_rest) {
this_len = this_rest;
}
#ifdef MARS_DEBUGGING
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if (unlikely(!virt_addr_valid(data))) {
MARS_ERR("invalid virtual kernel address %p\n", data);
status = -EINVAL;
goto out;
}
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#endif
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page = brick_iomap(data, &page_offset, &this_len);
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if (unlikely(!page)) {
MARS_ERR("cannot iomap() kernel address %p\n", data);
status = -EINVAL;
goto out;
}
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MARS_IO(" i = %d page = %p bv_len = %d bv_offset = %d\n", i, page, this_len, page_offset);
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bio->bi_io_vec[i].bv_page = page;
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bio->bi_io_vec[i].bv_len = this_len;
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bio->bi_io_vec[i].bv_offset = page_offset;
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data += this_len;
rest_len -= this_len;
result_len += this_len;
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page_offset = 0;
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//MARS_IO("page_offset=%d this_len=%d (new len=%d, new status=%d)\n", page_offset, this_len, rest_len, status);
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}
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if (unlikely(rest_len != 0)) {
MARS_ERR("computation of bvec_count %d was wrong, diff=%d\n", bvec_count, rest_len);
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status = -EIO;
goto out;
}
bio->bi_vcnt = i;
bio->bi_idx = 0;
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bio->bi_size = result_len;
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bio->bi_sector = sector;
bio->bi_bdev = bdev;
bio->bi_private = private;
bio->bi_end_io = bio_callback;
bio->bi_rw = 0; // must be filled in later
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status = result_len;
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out:
if (unlikely(status < 0)) {
MARS_ERR("error %d\n", status);
if (bio) {
bio_put(bio);
bio = NULL;
}
}
*_bio = bio;
return status;
}
////////////////// own brick / input / output operations //////////////////
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#define PRIO_INDEX(mref) ((mref)->ref_prio + 1)
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static int bio_get_info(struct bio_output *output, struct mars_info *info)
{
struct bio_brick *brick = output->brick;
struct inode *inode;
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int status = 0;
if (unlikely(!brick->filp ||
!brick->filp->f_mapping ||
!(inode = brick->filp->f_mapping->host))) {
status = -ENOENT;
goto done;
}
brick->total_size = inode->i_size;
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info->current_size = brick->total_size;
MARS_DBG("determined device size = %lld\n", info->current_size);
info->backing_file = brick->filp;
done:
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return status;
}
static int bio_ref_get(struct bio_output *output, struct mref_object *mref)
{
struct bio_mref_aspect *mref_a = bio_mref_get_aspect(output->brick, mref);
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int status = -EINVAL;
CHECK_PTR(mref_a, done);
CHECK_PTR(output->brick, done);
_CHECK_ATOMIC(&mref->ref_count, !=, 0);
if (mref_a->output)
goto ok;
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mref_a->output = output;
mref_a->bio = NULL;
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if (!mref->ref_data) { // buffered IO.
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status = -ENOMEM;
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mref->ref_data = brick_block_alloc(mref->ref_pos, (mref_a->alloc_len = mref->ref_len));
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if (unlikely(!mref->ref_data)) {
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goto done;
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}
mref_a->do_dealloc = true;
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}
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status = make_bio(output->brick, mref->ref_data, mref->ref_len, mref->ref_pos, mref_a, &mref_a->bio);
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if (unlikely(status < 0 || !mref_a->bio)) {
MARS_ERR("could not create bio, status = %d\n", status);
goto done;
}
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if (unlikely(mref->ref_prio < MARS_PRIO_HIGH))
mref->ref_prio = MARS_PRIO_HIGH;
else if (unlikely(mref->ref_prio > MARS_PRIO_LOW))
mref->ref_prio = MARS_PRIO_LOW;
MARS_IO("len = %d status = %d prio = %d fly = %d\n", mref->ref_len, status, mref->ref_prio, atomic_read(&output->brick->fly_count[PRIO_INDEX(mref)]));
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mref->ref_len = status;
ok:
atomic_inc(&mref->ref_count);
status = 0;
done:
return status;
}
static
void bio_ref_put(struct bio_output *output, struct mref_object *mref)
{
struct bio_mref_aspect *mref_a;
CHECK_ATOMIC(&mref->ref_count, 1);
if (!atomic_dec_and_test(&mref->ref_count)) {
goto done;
}
MARS_IO("deallocating\n");
mref->ref_total_size = output->brick->total_size;
mref_a = bio_mref_get_aspect(output->brick, mref);
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CHECK_PTR(mref_a, err);
if (likely(mref_a->bio)) {
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#ifdef MARS_DEBUGGING
int bi_cnt = atomic_read(&mref_a->bio->bi_cnt);
if (bi_cnt > 1) {
MARS_DBG("bi_cnt = %d\n", bi_cnt);
}
#endif
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bio_put(mref_a->bio);
mref_a->bio = NULL;
}
if (mref_a->do_dealloc) {
MARS_IO("free page\n");
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brick_block_free(mref->ref_data, mref_a->alloc_len);
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mref->ref_data = NULL;
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}
bio_free_mref(mref);
done:
return;
err:
MARS_FAT("cannot work\n");
}
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static
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void _bio_ref_io(struct bio_output *output, struct mref_object *mref, bool cork)
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{
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struct bio_brick *brick = output->brick;
struct bio_mref_aspect *mref_a = bio_mref_get_aspect(output->brick, mref);
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struct bio *bio;
int rw;
int status = -EINVAL;
CHECK_PTR(mref_a, err);
bio = mref_a->bio;
CHECK_PTR(bio, err);
CHECK_ATOMIC(&mref->ref_count, 1);
atomic_inc(&mref->ref_count);
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atomic_inc(&brick->fly_count[PRIO_INDEX(mref)]);
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bio_get(bio);
rw = mref->ref_rw & 1;
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if (brick->do_noidle && !cork) {
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rw |= (1 << BIO_RW_NOIDLE);
}
if (!mref->ref_skip_sync) {
if (brick->do_sync) {
rw |= (1 << BIO_RW_SYNCIO);
}
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if (brick->do_unplug && !cork) {
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rw |= (1 << BIO_RW_UNPLUG);
}
}
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MARS_IO("starting IO rw = %d prio 0 %d fly = %d\n", rw, mref->ref_prio, atomic_read(&brick->fly_count[PRIO_INDEX(mref)]));
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mars_trace(mref, "bio_submit");
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#ifdef FAKE_IO
bio->bi_end_io(bio, 0);
#else
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bio->bi_rw = rw;
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submit_bio(rw, bio);
#endif
status = 0;
if (unlikely(bio_flagged(bio, BIO_EOPNOTSUPP)))
status = -EOPNOTSUPP;
MARS_IO("submitted\n");
if (likely(status >= 0))
goto done;
bio_put(bio);
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atomic_dec(&brick->fly_count[PRIO_INDEX(mref)]);
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err:
MARS_ERR("IO error %d\n", status);
CHECKED_CALLBACK(mref, status, done);
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done: ;
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}
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static
void bio_ref_io(struct bio_output *output, struct mref_object *mref)
{
if (mref->ref_prio == MARS_PRIO_LOW) { // queue for background IO
struct bio_mref_aspect *mref_a = bio_mref_get_aspect(output->brick, mref);
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struct bio_brick *brick = output->brick;
unsigned long flags;
spin_lock_irqsave(&brick->lock, flags);
list_add_tail(&mref_a->io_head, &brick->background_list);
spin_unlock_irqrestore(&brick->lock, flags);
atomic_inc(&brick->background_count);
atomic_inc(&brick->total_background_count);
wake_up_interruptible(&brick->event);
return;
}
// foreground IO: start immediately
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_bio_ref_io(output, mref, false);
}
static
bool _bg_should_run(struct bio_brick *brick)
{
return (atomic_read(&brick->background_count) > 0 &&
atomic_read(&brick->fly_count[0]) + atomic_read(&brick->fly_count[1]) <= brick->bg_threshold &&
(brick->bg_maxfly <= 0 || atomic_read(&brick->fly_count[2]) < brick->bg_maxfly));
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}
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static int bio_thread(void *data)
{
struct bio_brick *brick = data;
#ifdef IO_DEBUGGING
int round = 0;
#endif
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MARS_INF("bio kthread has started on '%s'.\n", brick->brick_path);
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for (;;) {
LIST_HEAD(tmp_list);
unsigned long flags;
#ifdef IO_DEBUGGING
round++;
MARS_IO("%d sleeping...\n", round);
#endif
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wait_event_interruptible_timeout(
brick->event,
atomic_read(&brick->completed_count) > 0 ||
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_bg_should_run(brick),
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12 * HZ);
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MARS_IO("%d woken up, completed_count = %d background_count = %d fly_count[0] = %d fly_count[1] = %d fly_count[2] = %d\n",
round,
atomic_read(&brick->completed_count),
atomic_read(&brick->background_count),
atomic_read(&brick->fly_count[0]),
atomic_read(&brick->fly_count[1]),
atomic_read(&brick->fly_count[2]));
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spin_lock_irqsave(&brick->lock, flags);
list_replace_init(&brick->completed_list, &tmp_list);
spin_unlock_irqrestore(&brick->lock, flags);
for (;;) {
struct list_head *tmp;
struct bio_mref_aspect *mref_a;
struct mref_object *mref;
int code;
if (list_empty(&tmp_list)) {
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if (kthread_should_stop() && atomic_read(&brick->background_count) <= 0)
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goto done;
break;
}
tmp = tmp_list.next;
list_del_init(tmp);
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atomic_dec(&brick->completed_count);
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mref_a = container_of(tmp, struct bio_mref_aspect, io_head);
code = mref_a->status_code;
#ifdef IO_DEBUGGING
round++;
MARS_IO("%d completed , status = %d\n", round, code);
#endif
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mref = mref_a->object;
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mars_trace(mref, "bio_endio");
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if (code < 0) {
MARS_ERR("IO error %d\n", code);
} else {
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mref_checksum(mref);
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mref->ref_flags |= MREF_UPTODATE;
}
SIMPLE_CALLBACK(mref, code);
MARS_IO("%d callback done.\n", round);
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atomic_dec(&brick->fly_count[PRIO_INDEX(mref)]);
atomic_inc(&brick->total_completed_count[PRIO_INDEX(mref)]);
MARS_IO("%d completed_count = %d background_count = %d fly_count = %d\n", round, atomic_read(&brick->completed_count), atomic_read(&brick->background_count), atomic_read(&brick->fly_count[PRIO_INDEX(mref)]));
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if (likely(mref_a->bio)) {
bio_put(mref_a->bio);
}
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bio_ref_put(mref_a->output, mref);
}
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while (_bg_should_run(brick)) {
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struct list_head *tmp;
struct bio_mref_aspect *mref_a;
struct mref_object *mref;
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bool cork;
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MARS_IO("%d pushing background to foreground, completed_count = %d background_count = %d\n", round, atomic_read(&brick->completed_count), atomic_read(&brick->background_count));
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atomic_dec(&brick->background_count);
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spin_lock_irqsave(&brick->lock, flags);
tmp = brick->background_list.next;
list_del_init(tmp);
spin_unlock_irqrestore(&brick->lock, flags);
mref_a = container_of(tmp, struct bio_mref_aspect, io_head);
mref = mref_a->object;
if (unlikely(!mref)) {
MARS_ERR("invalid mref\n");
continue;
}
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cork = atomic_read(&brick->background_count) > 0;
_bio_ref_io(mref_a->output, mref, cork);
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}
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}
done:
MARS_INF("bio kthread has stopped.\n");
return 0;
}
static int bio_switch(struct bio_brick *brick)
{
int status = 0;
if (brick->power.button) {
mars_power_led_off((void*)brick, false);
if (!brick->bdev) {
static int index = 0;
const char *path = brick->brick_path;
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int flags = O_RDWR | O_LARGEFILE;
int prot = 0600;
struct inode *inode;
struct request_queue *q;
mm_segment_t oldfs;
oldfs = get_fs();
set_fs(get_ds());
brick->filp = filp_open(path, flags, prot);
set_fs(oldfs);
if (!brick->filp) {
MARS_ERR("cannot open '%s'\n", path);
status = -ENOENT;
goto done;
}
status = -EINVAL;
CHECK_PTR(brick->filp->f_mapping, done);
inode = brick->filp->f_mapping->host;
CHECK_PTR(inode, done);
if (!S_ISBLK(inode->i_mode)) {
MARS_ERR("sorry, '%s' is not a block device\n", path);
goto done;
}
q = bdev_get_queue(inode->i_bdev);
CHECK_PTR(q, done);
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#if 1
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MARS_INF("ra_pages OLD=%lu NEW=%d\n", q->backing_dev_info.ra_pages, brick->ra_pages);
q->backing_dev_info.ra_pages = brick->ra_pages;
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#endif
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brick->bvec_max = queue_max_hw_sectors(q) >> (PAGE_SHIFT - 9);
brick->total_size = inode->i_size;
brick->thread = kthread_create(bio_thread, brick, "mars_bio%d", index++);
if (IS_ERR(brick->thread)) {
status = PTR_ERR(brick->thread);
MARS_ERR("cannot create thread\n");
brick->thread = NULL;
}
if (brick->thread) {
brick->bdev = inode->i_bdev;
wake_up_process(brick->thread);
status = 0;
}
}
if (brick->bdev) {
mars_power_led_on((void*)brick, true);
}
} else {
mars_power_led_on((void*)brick, false);
// TODO: wait for IO completion
if (brick->filp) {
filp_close(brick->filp, NULL);
brick->filp = NULL;
}
if (brick->thread) {
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MARS_INF("stopping thread...\n");
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kthread_stop(brick->thread);
brick->thread = NULL;
}
brick->bdev = NULL;
brick->total_size = 0;
mars_power_led_off((void*)brick, true);
}
done:
if (status < 0 && brick->filp) {
filp_close(brick->filp, NULL);
brick->filp = NULL;
}
return status;
}
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//////////////// informational / statistics ///////////////
static noinline
char *bio_statistics(struct bio_brick *brick, int verbose)
{
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char *res = brick_string_alloc(0);
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if (!res)
return NULL;
// FIXME: check for allocation overflows
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snprintf(res, 512,
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"total "
"completed[0] = %d "
"completed[1] = %d "
"completed[2] = %d "
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"background = %d | "
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"flying[0] = %d "
"flying[1] = %d "
"flying[2] = %d "
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"completing = %d "
"background = %d\n",
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atomic_read(&brick->total_completed_count[0]),
atomic_read(&brick->total_completed_count[1]),
atomic_read(&brick->total_completed_count[2]),
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atomic_read(&brick->total_background_count),
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atomic_read(&brick->fly_count[0]),
atomic_read(&brick->fly_count[1]),
atomic_read(&brick->fly_count[2]),
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atomic_read(&brick->completed_count),
atomic_read(&brick->background_count));
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return res;
}
static noinline
void bio_reset_statistics(struct bio_brick *brick)
{
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atomic_set(&brick->total_completed_count[0], 0);
atomic_set(&brick->total_completed_count[1], 0);
atomic_set(&brick->total_completed_count[2], 0);
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atomic_set(&brick->total_background_count, 0);
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}
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//////////////// object / aspect constructors / destructors ///////////////
static int bio_mref_aspect_init_fn(struct generic_aspect *_ini)
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{
struct bio_mref_aspect *ini = (void*)_ini;
INIT_LIST_HEAD(&ini->io_head);
return 0;
}
static void bio_mref_aspect_exit_fn(struct generic_aspect *_ini)
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{
struct bio_mref_aspect *ini = (void*)_ini;
(void)ini;
}
MARS_MAKE_STATICS(bio);
////////////////////// brick constructors / destructors ////////////////////
static int bio_brick_construct(struct bio_brick *brick)
{
spin_lock_init(&brick->lock);
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INIT_LIST_HEAD(&brick->background_list);
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INIT_LIST_HEAD(&brick->completed_list);
init_waitqueue_head(&brick->event);
return 0;
}
static int bio_brick_destruct(struct bio_brick *brick)
{
return 0;
}
static int bio_output_construct(struct bio_output *output)
{
return 0;
}
static int bio_output_destruct(struct bio_output *output)
{
return 0;
}
///////////////////////// static structs ////////////////////////
static struct bio_brick_ops bio_brick_ops = {
.brick_switch = bio_switch,
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.brick_statistics = bio_statistics,
.reset_statistics = bio_reset_statistics,
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};
static struct bio_output_ops bio_output_ops = {
.mars_get_info = bio_get_info,
.mref_get = bio_ref_get,
.mref_put = bio_ref_put,
.mref_io = bio_ref_io,
};
const struct bio_input_type bio_input_type = {
.type_name = "bio_input",
.input_size = sizeof(struct bio_input),
};
static const struct bio_input_type *bio_input_types[] = {
&bio_input_type,
};
const struct bio_output_type bio_output_type = {
.type_name = "bio_output",
.output_size = sizeof(struct bio_output),
.master_ops = &bio_output_ops,
.output_construct = &bio_output_construct,
.output_destruct = &bio_output_destruct,
};
static const struct bio_output_type *bio_output_types[] = {
&bio_output_type,
};
const struct bio_brick_type bio_brick_type = {
.type_name = "bio_brick",
.brick_size = sizeof(struct bio_brick),
.max_inputs = 0,
.max_outputs = 1,
.master_ops = &bio_brick_ops,
.aspect_types = bio_aspect_types,
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.default_input_types = bio_input_types,
.default_output_types = bio_output_types,
.brick_construct = &bio_brick_construct,
.brick_destruct = &bio_brick_destruct,
};
EXPORT_SYMBOL_GPL(bio_brick_type);
////////////////// module init stuff /////////////////////////
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int __init init_mars_bio(void)
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{
MARS_INF("init_bio()\n");
_bio_brick_type = (void*)&bio_brick_type;
return bio_register_brick_type();
}
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void __exit exit_mars_bio(void)
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{
MARS_INF("exit_bio()\n");
bio_unregister_brick_type();
}
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#ifndef CONFIG_MARS_HAVE_BIGMODULE
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MODULE_DESCRIPTION("MARS bio brick");
MODULE_AUTHOR("Thomas Schoebel-Theuer <tst@1und1.de>");
MODULE_LICENSE("GPL");
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module_init(init_mars_bio);
module_exit(exit_mars_bio);
#endif