// SPDX-License-Identifier: GPL-2.0 #include "bcachefs.h" #include "clock.h" #include #include #include static inline long io_timer_cmp(io_timer_heap *h, struct io_timer *l, struct io_timer *r) { return l->expire - r->expire; } void bch2_io_timer_add(struct io_clock *clock, struct io_timer *timer) { size_t i; spin_lock(&clock->timer_lock); if (time_after_eq((unsigned long) atomic64_read(&clock->now), timer->expire)) { spin_unlock(&clock->timer_lock); timer->fn(timer); return; } for (i = 0; i < clock->timers.used; i++) if (clock->timers.data[i] == timer) goto out; BUG_ON(!heap_add(&clock->timers, timer, io_timer_cmp, NULL)); out: spin_unlock(&clock->timer_lock); } void bch2_io_timer_del(struct io_clock *clock, struct io_timer *timer) { size_t i; spin_lock(&clock->timer_lock); for (i = 0; i < clock->timers.used; i++) if (clock->timers.data[i] == timer) { heap_del(&clock->timers, i, io_timer_cmp, NULL); break; } spin_unlock(&clock->timer_lock); } struct io_clock_wait { struct io_timer io_timer; struct timer_list cpu_timer; struct task_struct *task; int expired; }; static void io_clock_wait_fn(struct io_timer *timer) { struct io_clock_wait *wait = container_of(timer, struct io_clock_wait, io_timer); wait->expired = 1; wake_up_process(wait->task); } static void io_clock_cpu_timeout(struct timer_list *timer) { struct io_clock_wait *wait = container_of(timer, struct io_clock_wait, cpu_timer); wait->expired = 1; wake_up_process(wait->task); } void bch2_io_clock_schedule_timeout(struct io_clock *clock, unsigned long until) { struct io_clock_wait wait; /* XXX: calculate sleep time rigorously */ wait.io_timer.expire = until; wait.io_timer.fn = io_clock_wait_fn; wait.task = current; wait.expired = 0; bch2_io_timer_add(clock, &wait.io_timer); schedule(); bch2_io_timer_del(clock, &wait.io_timer); } void bch2_kthread_io_clock_wait(struct io_clock *clock, unsigned long io_until, unsigned long cpu_timeout) { bool kthread = (current->flags & PF_KTHREAD) != 0; struct io_clock_wait wait; wait.io_timer.expire = io_until; wait.io_timer.fn = io_clock_wait_fn; wait.task = current; wait.expired = 0; bch2_io_timer_add(clock, &wait.io_timer); timer_setup_on_stack(&wait.cpu_timer, io_clock_cpu_timeout, 0); if (cpu_timeout != MAX_SCHEDULE_TIMEOUT) mod_timer(&wait.cpu_timer, cpu_timeout + jiffies); do { set_current_state(TASK_INTERRUPTIBLE); if (kthread && kthread_should_stop()) break; if (wait.expired) break; schedule(); try_to_freeze(); } while (0); __set_current_state(TASK_RUNNING); del_timer_sync(&wait.cpu_timer); destroy_timer_on_stack(&wait.cpu_timer); bch2_io_timer_del(clock, &wait.io_timer); } static struct io_timer *get_expired_timer(struct io_clock *clock, unsigned long now) { struct io_timer *ret = NULL; spin_lock(&clock->timer_lock); if (clock->timers.used && time_after_eq(now, clock->timers.data[0]->expire)) heap_pop(&clock->timers, ret, io_timer_cmp, NULL); spin_unlock(&clock->timer_lock); return ret; } void __bch2_increment_clock(struct io_clock *clock, unsigned sectors) { struct io_timer *timer; unsigned long now = atomic64_add_return(sectors, &clock->now); while ((timer = get_expired_timer(clock, now))) timer->fn(timer); } void bch2_io_timers_to_text(struct printbuf *out, struct io_clock *clock) { unsigned long now; unsigned i; out->atomic++; spin_lock(&clock->timer_lock); now = atomic64_read(&clock->now); for (i = 0; i < clock->timers.used; i++) prt_printf(out, "%ps:\t%li\n", clock->timers.data[i]->fn, clock->timers.data[i]->expire - now); spin_unlock(&clock->timer_lock); --out->atomic; } void bch2_io_clock_exit(struct io_clock *clock) { free_heap(&clock->timers); free_percpu(clock->pcpu_buf); } int bch2_io_clock_init(struct io_clock *clock) { atomic64_set(&clock->now, 0); spin_lock_init(&clock->timer_lock); clock->max_slop = IO_CLOCK_PCPU_SECTORS * num_possible_cpus(); clock->pcpu_buf = alloc_percpu(*clock->pcpu_buf); if (!clock->pcpu_buf) return -BCH_ERR_ENOMEM_io_clock_init; if (!init_heap(&clock->timers, NR_IO_TIMERS, GFP_KERNEL)) return -BCH_ERR_ENOMEM_io_clock_init; return 0; }