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fa8e94faee
This patch changes printbufs dynamically allocate and reallocate a buffer as needed. Stack usage has become a bit of a problem, and a major cause of that has been static size string buffers on the stack. The most involved part of this refactoring is that printbufs must now be exited with printbuf_exit(). Signed-off-by: Kent Overstreet <kent.overstreet@linux.dev>
350 lines
8.1 KiB
C
350 lines
8.1 KiB
C
// SPDX-License-Identifier: GPL-2.0
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#include "bcachefs.h"
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#include "alloc_foreground.h"
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#include "btree_iter.h"
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#include "buckets.h"
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#include "clock.h"
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#include "disk_groups.h"
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#include "extents.h"
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#include "io.h"
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#include "move.h"
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#include "rebalance.h"
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#include "super-io.h"
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#include "trace.h"
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#include <linux/freezer.h>
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#include <linux/kthread.h>
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#include <linux/sched/cputime.h>
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/*
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* Check if an extent should be moved:
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* returns -1 if it should not be moved, or
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* device of pointer that should be moved, if known, or INT_MAX if unknown
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*/
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static int __bch2_rebalance_pred(struct bch_fs *c,
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struct bkey_s_c k,
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struct bch_io_opts *io_opts)
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{
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struct bkey_ptrs_c ptrs = bch2_bkey_ptrs_c(k);
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const union bch_extent_entry *entry;
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struct extent_ptr_decoded p;
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if (io_opts->background_compression &&
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!bch2_bkey_is_incompressible(k))
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bkey_for_each_ptr_decode(k.k, ptrs, p, entry)
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if (!p.ptr.cached &&
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p.crc.compression_type !=
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bch2_compression_opt_to_type[io_opts->background_compression])
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return p.ptr.dev;
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if (io_opts->background_target)
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bkey_for_each_ptr_decode(k.k, ptrs, p, entry)
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if (!p.ptr.cached &&
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!bch2_dev_in_target(c, p.ptr.dev, io_opts->background_target))
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return p.ptr.dev;
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return -1;
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}
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void bch2_rebalance_add_key(struct bch_fs *c,
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struct bkey_s_c k,
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struct bch_io_opts *io_opts)
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{
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atomic64_t *counter;
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int dev;
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dev = __bch2_rebalance_pred(c, k, io_opts);
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if (dev < 0)
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return;
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counter = dev < INT_MAX
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? &bch_dev_bkey_exists(c, dev)->rebalance_work
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: &c->rebalance.work_unknown_dev;
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if (atomic64_add_return(k.k->size, counter) == k.k->size)
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rebalance_wakeup(c);
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}
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static enum data_cmd rebalance_pred(struct bch_fs *c, void *arg,
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struct bkey_s_c k,
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struct bch_io_opts *io_opts,
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struct data_opts *data_opts)
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{
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if (__bch2_rebalance_pred(c, k, io_opts) >= 0) {
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data_opts->target = io_opts->background_target;
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data_opts->nr_replicas = 1;
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data_opts->btree_insert_flags = 0;
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return DATA_ADD_REPLICAS;
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} else {
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return DATA_SKIP;
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}
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}
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void bch2_rebalance_add_work(struct bch_fs *c, u64 sectors)
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{
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if (atomic64_add_return(sectors, &c->rebalance.work_unknown_dev) ==
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sectors)
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rebalance_wakeup(c);
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}
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struct rebalance_work {
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int dev_most_full_idx;
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unsigned dev_most_full_percent;
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u64 dev_most_full_work;
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u64 dev_most_full_capacity;
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u64 total_work;
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};
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static void rebalance_work_accumulate(struct rebalance_work *w,
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u64 dev_work, u64 unknown_dev, u64 capacity, int idx)
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{
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unsigned percent_full;
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u64 work = dev_work + unknown_dev;
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if (work < dev_work || work < unknown_dev)
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work = U64_MAX;
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work = min(work, capacity);
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percent_full = div64_u64(work * 100, capacity);
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if (percent_full >= w->dev_most_full_percent) {
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w->dev_most_full_idx = idx;
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w->dev_most_full_percent = percent_full;
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w->dev_most_full_work = work;
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w->dev_most_full_capacity = capacity;
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}
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if (w->total_work + dev_work >= w->total_work &&
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w->total_work + dev_work >= dev_work)
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w->total_work += dev_work;
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}
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static struct rebalance_work rebalance_work(struct bch_fs *c)
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{
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struct bch_dev *ca;
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struct rebalance_work ret = { .dev_most_full_idx = -1 };
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u64 unknown_dev = atomic64_read(&c->rebalance.work_unknown_dev);
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unsigned i;
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for_each_online_member(ca, c, i)
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rebalance_work_accumulate(&ret,
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atomic64_read(&ca->rebalance_work),
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unknown_dev,
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bucket_to_sector(ca, ca->mi.nbuckets -
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ca->mi.first_bucket),
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i);
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rebalance_work_accumulate(&ret,
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unknown_dev, 0, c->capacity, -1);
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return ret;
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}
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static void rebalance_work_reset(struct bch_fs *c)
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{
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struct bch_dev *ca;
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unsigned i;
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for_each_online_member(ca, c, i)
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atomic64_set(&ca->rebalance_work, 0);
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atomic64_set(&c->rebalance.work_unknown_dev, 0);
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}
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static unsigned long curr_cputime(void)
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{
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u64 utime, stime;
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task_cputime_adjusted(current, &utime, &stime);
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return nsecs_to_jiffies(utime + stime);
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}
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static int bch2_rebalance_thread(void *arg)
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{
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struct bch_fs *c = arg;
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struct bch_fs_rebalance *r = &c->rebalance;
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struct io_clock *clock = &c->io_clock[WRITE];
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struct rebalance_work w, p;
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struct bch_move_stats move_stats;
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unsigned long start, prev_start;
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unsigned long prev_run_time, prev_run_cputime;
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unsigned long cputime, prev_cputime;
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u64 io_start;
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long throttle;
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set_freezable();
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io_start = atomic64_read(&clock->now);
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p = rebalance_work(c);
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prev_start = jiffies;
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prev_cputime = curr_cputime();
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bch_move_stats_init(&move_stats, "rebalance");
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while (!kthread_wait_freezable(r->enabled)) {
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cond_resched();
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start = jiffies;
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cputime = curr_cputime();
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prev_run_time = start - prev_start;
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prev_run_cputime = cputime - prev_cputime;
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w = rebalance_work(c);
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BUG_ON(!w.dev_most_full_capacity);
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if (!w.total_work) {
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r->state = REBALANCE_WAITING;
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kthread_wait_freezable(rebalance_work(c).total_work);
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continue;
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}
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/*
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* If there isn't much work to do, throttle cpu usage:
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*/
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throttle = prev_run_cputime * 100 /
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max(1U, w.dev_most_full_percent) -
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prev_run_time;
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if (w.dev_most_full_percent < 20 && throttle > 0) {
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r->throttled_until_iotime = io_start +
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div_u64(w.dev_most_full_capacity *
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(20 - w.dev_most_full_percent),
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50);
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if (atomic64_read(&clock->now) + clock->max_slop <
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r->throttled_until_iotime) {
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r->throttled_until_cputime = start + throttle;
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r->state = REBALANCE_THROTTLED;
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bch2_kthread_io_clock_wait(clock,
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r->throttled_until_iotime,
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throttle);
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continue;
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}
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}
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/* minimum 1 mb/sec: */
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r->pd.rate.rate =
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max_t(u64, 1 << 11,
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r->pd.rate.rate *
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max(p.dev_most_full_percent, 1U) /
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max(w.dev_most_full_percent, 1U));
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io_start = atomic64_read(&clock->now);
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p = w;
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prev_start = start;
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prev_cputime = cputime;
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r->state = REBALANCE_RUNNING;
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memset(&move_stats, 0, sizeof(move_stats));
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rebalance_work_reset(c);
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bch2_move_data(c,
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0, POS_MIN,
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BTREE_ID_NR, POS_MAX,
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/* ratelimiting disabled for now */
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NULL, /* &r->pd.rate, */
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writepoint_ptr(&c->rebalance_write_point),
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rebalance_pred, NULL,
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&move_stats);
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}
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return 0;
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}
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void bch2_rebalance_work_to_text(struct printbuf *out, struct bch_fs *c)
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{
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struct bch_fs_rebalance *r = &c->rebalance;
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struct rebalance_work w = rebalance_work(c);
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out->tabstops[0] = 20;
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pr_buf(out, "fullest_dev (%i):", w.dev_most_full_idx);
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pr_tab(out);
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bch2_hprint(out, w.dev_most_full_work << 9);
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pr_buf(out, "/");
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bch2_hprint(out, w.dev_most_full_capacity << 9);
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pr_newline(out);
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pr_buf(out, "total work:");
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pr_tab(out);
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bch2_hprint(out, w.total_work << 9);
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pr_buf(out, "/");
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bch2_hprint(out, c->capacity << 9);
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pr_newline(out);
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pr_buf(out, "rate:");
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pr_tab(out);
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pr_buf(out, "%u", r->pd.rate.rate);
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pr_newline(out);
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switch (r->state) {
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case REBALANCE_WAITING:
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pr_buf(out, "waiting");
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break;
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case REBALANCE_THROTTLED:
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pr_buf(out, "throttled for %lu sec or ",
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(r->throttled_until_cputime - jiffies) / HZ);
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bch2_hprint(out,
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(r->throttled_until_iotime -
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atomic64_read(&c->io_clock[WRITE].now)) << 9);
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pr_buf(out, " io");
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break;
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case REBALANCE_RUNNING:
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pr_buf(out, "running");
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break;
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}
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pr_newline(out);
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}
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void bch2_rebalance_stop(struct bch_fs *c)
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{
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struct task_struct *p;
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c->rebalance.pd.rate.rate = UINT_MAX;
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bch2_ratelimit_reset(&c->rebalance.pd.rate);
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p = rcu_dereference_protected(c->rebalance.thread, 1);
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c->rebalance.thread = NULL;
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if (p) {
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/* for sychronizing with rebalance_wakeup() */
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synchronize_rcu();
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kthread_stop(p);
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put_task_struct(p);
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}
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}
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int bch2_rebalance_start(struct bch_fs *c)
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{
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struct task_struct *p;
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if (c->rebalance.thread)
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return 0;
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if (c->opts.nochanges)
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return 0;
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p = kthread_create(bch2_rebalance_thread, c, "bch-rebalance/%s", c->name);
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if (IS_ERR(p)) {
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bch_err(c, "error creating rebalance thread: %li", PTR_ERR(p));
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return PTR_ERR(p);
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}
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get_task_struct(p);
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rcu_assign_pointer(c->rebalance.thread, p);
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wake_up_process(p);
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return 0;
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}
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void bch2_fs_rebalance_init(struct bch_fs *c)
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{
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bch2_pd_controller_init(&c->rebalance.pd);
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atomic64_set(&c->rebalance.work_unknown_dev, S64_MAX);
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}
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