mirror of
https://gitlab.nic.cz/labs/bird.git
synced 2024-11-13 22:58:42 +00:00
b797444e94
Also converted all _Bool's to bool.
456 lines
12 KiB
C
456 lines
12 KiB
C
/*
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* BIRD Library -- Generic lock-free structures
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*
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* (c) 2023--2024 Maria Matejka <mq@jmq.cz>
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* (c) 2023--2024 CZ.NIC, z.s.p.o.
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*
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* Can be freely distributed and used under the terms of the GNU GPL.
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*/
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#include "lib/birdlib.h"
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#include "lib/lockfree.h"
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#define LOCAL_DEBUG
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void lfuc_unlock_deferred(struct deferred_call *dc)
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{
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SKIP_BACK_DECLARE(struct lfuc_unlock_queue_item, luqi, dc, dc);
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lfuc_unlock_immediately(luqi->c, luqi->el, luqi->ev);
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}
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#if 0
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#define lfjour_debug(...) log(L_TRACE __VA_ARGS__)
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#define lfjour_debug_detailed(...) log(L_TRACE __VA_ARGS__)
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#elif 0
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#define lfjour_debug(...) log(L_TRACE __VA_ARGS__)
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#define lfjour_debug_detailed(...)
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#else
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#define lfjour_debug(...)
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#define lfjour_debug_detailed(...)
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#endif
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#define LBI(j, b, p) ((struct lfjour_item *)(((void *) (b)->_block) + ((j)->item_size * (p))))
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#define LBP(j, b, i) ({ \
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off_t off = ((void *) (i)) - ((void *) (b)->_block); \
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u32 s = (j)->item_size; \
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ASSERT_DIE(off < page_size); \
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ASSERT_DIE((off % s) == 0); \
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off / s; \
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})
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struct lfjour_item *
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lfjour_push_prepare(struct lfjour *j)
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{
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ASSERT_DIE(!j->domain || DG_IS_LOCKED(j->domain));
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ASSERT_DIE(!j->open);
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if (EMPTY_TLIST(lfjour_block, &j->pending) &&
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EMPTY_TLIST(lfjour_recipient, &j->recipients))
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return NULL;
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struct lfjour_block *block = NULL;
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u32 end = 0;
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if (!EMPTY_TLIST(lfjour_block, &j->pending))
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{
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block = j->pending.last;
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end = atomic_load_explicit(&block->end, memory_order_relaxed);
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if (end >= j->item_count)
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{
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ASSERT_DIE(end == j->item_count);
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block = NULL;
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end = 0;
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}
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}
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if (!block)
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{
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block = alloc_page();
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lfjour_debug("lfjour(%p)_push_prepare: allocating block %p", j, block);
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*block = (struct lfjour_block) {};
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lfjour_block_add_tail(&j->pending, block);
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}
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struct lfjour_item *i = LBI(j, block, end);
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*i = (struct lfjour_item) {
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.seq = j->next_seq++,
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};
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return j->open = i;
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}
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void
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lfjour_push_commit(struct lfjour *j)
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{
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ASSERT_DIE(!j->domain || DG_IS_LOCKED(j->domain));
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ASSERT_DIE(j->open);
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struct lfjour_block *b = PAGE_HEAD(j->open);
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ASSERT_DIE(b == j->pending.last);
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lfjour_debug("lfjour(%p)_push_commit of %p, seq=%lu", j, j->open, j->open->seq);
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u32 end = atomic_fetch_add_explicit(&b->end, 1, memory_order_release);
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ASSERT_DIE(j->open == LBI(j, b, end));
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if (end == 0)
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{
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struct lfjour_block *prev = b->n.prev;
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bool f = 0;
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if (prev)
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ASSERT_DIE(atomic_compare_exchange_strong_explicit(&prev->not_last, &f, 1,
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memory_order_release, memory_order_relaxed));
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}
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/* Store the first item to announce (only if this is actually the first one). */
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struct lfjour_item *null_item = NULL;
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if (atomic_compare_exchange_strong_explicit(
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&j->first, &null_item, j->open,
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memory_order_acq_rel, memory_order_relaxed))
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{
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lfjour_debug("lfjour(%p) first set", j);
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}
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j->open = NULL;
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if (!ev_active(&j->announce_kick_event))
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ev_send_loop(j->loop, &j->announce_kick_event);
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}
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static struct lfjour_item *
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lfjour_get_next(struct lfjour *j, const struct lfjour_item *last)
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{
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/* This is lockless, no domain checks. */
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if (!last)
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{
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struct lfjour_item *first = atomic_load_explicit(&j->first, memory_order_acquire);
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return first;
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}
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struct lfjour_block *block = PAGE_HEAD(last);
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ASSERT_DIE(block);
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u32 end = atomic_load_explicit(&block->end, memory_order_acquire);
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u32 pos = LBP(j, block, last);
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ASSERT_DIE(pos < end);
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/* Next is in the same block. */
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if (++pos < end)
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return LBI(j, block, pos);
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/* There is another block. */
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if (atomic_load_explicit(&block->not_last, memory_order_acquire))
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{
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/* To avoid rare race conditions, we shall check the current block end once again */
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u32 new_end = atomic_load_explicit(&block->end, memory_order_acquire);
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ASSERT_DIE(new_end >= end);
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if (new_end > end)
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return LBI(j, block, pos);
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/* Nothing in the previous one, let's move to the next block.
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* This is OK to do non-atomically because of the not_last flag. */
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block = block->n.next;
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return LBI(j, block, 0);
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}
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/* There is nothing more. */
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return NULL;
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}
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struct lfjour_item *
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lfjour_get(struct lfjour_recipient *r)
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{
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struct lfjour *j = lfjour_of_recipient(r);
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const struct lfjour_item *last = r->cur;
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struct lfjour_item *next = NULL;
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if (last)
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next = lfjour_get_next(j, r->cur);
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else
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{
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/* The last pointer may get cleaned up under our hands.
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* Indicating that we're using it, by RCU read. */
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rcu_read_lock();
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last = atomic_load_explicit(&r->last, memory_order_acquire);
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next = lfjour_get_next(j, last);
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rcu_read_unlock();
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}
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if (last)
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{
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lfjour_debug_detailed("lfjour(%p)_get(recipient=%p) returns %p, seq=%lu, last %p",
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j, r, next, next ? next->seq : 0ULL, last);
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}
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else
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{
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lfjour_debug("lfjour(%p)_get(recipient=%p) returns %p, seq=%lu, clean",
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j, r, next, next ? next->seq : 0ULL);
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}
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if (!next)
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return NULL;
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if (!r->first_holding_seq)
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r->first_holding_seq = next->seq;
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return r->cur = next;
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}
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void lfjour_release(struct lfjour_recipient *r, const struct lfjour_item *it)
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{
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/* Find out what we actually released last */
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rcu_read_lock();
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const struct lfjour_item *last = atomic_load_explicit(&r->last, memory_order_acquire);
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struct lfjour_block *last_block = last ? PAGE_HEAD(last) : NULL;
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rcu_read_unlock();
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/* This is lockless, no domain checks. */
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ASSERT_DIE(r->cur);
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/* Partial or full release? */
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ASSERT_DIE(r->first_holding_seq);
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ASSERT_DIE(it->seq >= r->first_holding_seq);
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if (it->seq < r->cur->seq)
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{
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lfjour_debug("lfjour(%p)_release(recipient=%p) of %p, partial upto seq=%lu",
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j, r, it, it->seq);
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r->first_holding_seq = it->seq + 1;
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atomic_store_explicit(&r->last, it, memory_order_release);
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return;
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}
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struct lfjour_block *block = PAGE_HEAD(r->cur);
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u32 end = atomic_load_explicit(&block->end, memory_order_acquire);
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struct lfjour *j = lfjour_of_recipient(r);
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u32 pos = LBP(j, block, r->cur);
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ASSERT_DIE(pos < end);
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/* Releasing this export for cleanup routine */
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if (pos + 1 == end)
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{
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lfjour_debug("lfjour(%p)_release(recipient=%p) of %p, seq=%lu (end)",
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j, r, r->cur, r->cur->seq);
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}
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else
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{
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lfjour_debug_detailed("lfjour(%p)_release(recipient=%p) of %p, seq=%lu (mid)",
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j, r, r->cur, r->cur->seq);
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}
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atomic_store_explicit(&r->last, r->cur, memory_order_release);
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/* The last block may be available to free */
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if ((pos + 1 == end) || last && (last_block != block))
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lfjour_schedule_cleanup(j);
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r->first_holding_seq = 0;
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r->cur = NULL;
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}
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void
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lfjour_announce_now(struct lfjour *j)
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{
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ASSERT_DIE(birdloop_inside(j->loop));
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settle_cancel(&j->announce_timer);
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ev_postpone(&j->announce_kick_event);
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if (EMPTY_TLIST(lfjour_recipient, &j->recipients))
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return lfjour_schedule_cleanup(j);
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WALK_TLIST(lfjour_recipient, r, &j->recipients)
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if (r->event)
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ev_send(r->target, r->event);
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}
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static void
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lfjour_announce_settle_hook(struct settle *s)
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{
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return lfjour_announce_now(SKIP_BACK(struct lfjour, announce_timer, s));
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}
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static void
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lfjour_announce_kick_hook(void *_j)
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{
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struct lfjour *j = _j;
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settle_kick(&j->announce_timer, j->loop);
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}
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u64
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lfjour_pending_items(struct lfjour *j)
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{
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ASSERT_DIE(!j->domain || DG_IS_LOCKED(j->domain));
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struct lfjour_item *first = atomic_load_explicit(&j->first, memory_order_relaxed);
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if (!first)
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return 0;
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ASSERT_DIE(j->next_seq > first->seq);
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return j->next_seq - first->seq;
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}
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void
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lfjour_register(struct lfjour *j, struct lfjour_recipient *r)
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{
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ASSERT_DIE(!j->domain || DG_IS_LOCKED(j->domain));
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ASSERT_DIE(!r->event == !r->target);
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atomic_store_explicit(&r->last, NULL, memory_order_relaxed);
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ASSERT_DIE(!r->cur);
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lfjour_recipient_add_tail(&j->recipients, r);
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}
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void
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lfjour_unregister(struct lfjour_recipient *r)
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{
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struct lfjour *j = lfjour_of_recipient(r);
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ASSERT_DIE(!j->domain || DG_IS_LOCKED(j->domain));
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if (r->cur)
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lfjour_release(r, r->cur);
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lfjour_recipient_rem_node(&j->recipients, r);
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lfjour_schedule_cleanup(j);
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}
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static inline void lfjour_cleanup_unlock_helper(struct domain_generic **dg)
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{
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if (!*dg) return;
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DG_UNLOCK(*dg);
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}
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static void
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lfjour_cleanup_hook(void *_j)
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{
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struct lfjour *j = _j;
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CLEANUP(lfjour_cleanup_unlock_helper) struct domain_generic *_locked = j->domain;
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if (_locked) DG_LOCK(_locked);
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u64 min_seq = ~((u64) 0);
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const struct lfjour_item *last_item_to_free = NULL;
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struct lfjour_item *first = atomic_load_explicit(&j->first, memory_order_acquire);
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if (!first)
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{
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/* Nothing to cleanup, actually, just call the done callback */
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ASSERT_DIE(EMPTY_TLIST(lfjour_block, &j->pending));
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CALL(j->cleanup_done, j, 0, ~((u64) 0));
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return;
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}
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WALK_TLIST(lfjour_recipient, r, &j->recipients)
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{
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const struct lfjour_item *last = atomic_load_explicit(&r->last, memory_order_acquire);
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if (!last)
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/* No last export means that the channel has exported nothing since last cleanup */
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return;
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else if (min_seq > last->seq)
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{
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min_seq = last->seq;
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last_item_to_free = last;
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}
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}
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/* Here we're sure that no receiver is going to use the first pointer soon.
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* It is only used when the receiver's last pointer is NULL, which is avoided by the code above.
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* Thus, we can just move the journal's first pointer forward. */
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struct lfjour_item *next = last_item_to_free ? lfjour_get_next(j, last_item_to_free) : NULL;
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atomic_store_explicit(&j->first, next, memory_order_release);
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lfjour_debug("lfjour(%p) set first=%p (was %p)", j, next, first);
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WALK_TLIST(lfjour_recipient, r, &j->recipients)
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{
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const struct lfjour_item *last = last_item_to_free;
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/* This either succeeds if this item is the most-behind-one,
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* or fails and gives us the actual last for debug output. */
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if (atomic_compare_exchange_strong_explicit(
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&r->last, &last, NULL,
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memory_order_acq_rel, memory_order_acquire))
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{
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lfjour_debug("lfjour(%p)_cleanup(recipient=%p): store last=NULL", j, r);
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}
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else
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{
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lfjour_debug("lfjour(%p)_cleanup(recipient=%p): keep last=%p", j, r, last);
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}
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}
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/* Now some recipients may have old last-pointers. We have to wait
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* until they finish their routine, before we start cleaning up. */
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synchronize_rcu();
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u64 orig_first_seq = first->seq;
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/* Now we do the actual cleanup */
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while (first && (first->seq <= min_seq))
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{
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j->item_done(j, first);
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/* Find next journal item */
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struct lfjour_item *next = lfjour_get_next(j, first);
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if (PAGE_HEAD(next) != PAGE_HEAD(first))
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{
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/* This was the last one in its block */
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struct lfjour_block *block = PAGE_HEAD(first);
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lfjour_debug("lfjour(%p)_cleanup: freeing block %p", j, block);
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ASSERT_DIE(block == j->pending.first);
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/* Free this block */
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lfjour_block_rem_node(&j->pending, block);
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/* Wait for possible pending readers of the block */
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synchronize_rcu();
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/* Now we can finally drop the block */
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#ifdef LOCAL_DEBUG
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memset(block, 0xbe, page_size);
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#endif
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free_page(block);
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/* If no more blocks are remaining, we shall reset
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* the sequence numbers */
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if (EMPTY_TLIST(lfjour_block, &j->pending))
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{
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lfjour_debug("lfjour(%p)_cleanup: seq reset", j);
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WALK_TLIST(lfjour_recipient, r, &j->recipients)
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atomic_fetch_or_explicit(&r->recipient_flags, LFJOUR_R_SEQ_RESET, memory_order_acq_rel);
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j->next_seq = 1;
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}
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}
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/* And now move on to the next item */
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first = next;
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}
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CALL(j->cleanup_done, j, orig_first_seq, first ? first->seq : ~((u64) 0));
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}
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void
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lfjour_init(struct lfjour *j, struct settle_config *scf)
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{
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/* Expecting all other fields to be initialized to zeroes by the caller */
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ASSERT_DIE(j->loop);
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ASSERT_DIE(j->item_size >= sizeof(struct lfjour_item));
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j->item_size = BIRD_CPU_ALIGN(j->item_size);
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j->item_count = (page_size - sizeof(struct lfjour_block)) / j->item_size;
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j->next_seq = 1;
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j->announce_kick_event = (event) {
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.hook = lfjour_announce_kick_hook,
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.data = j,
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};
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j->announce_timer = SETTLE_INIT(scf, lfjour_announce_settle_hook, j);
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j->cleanup_event = (event) {
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.hook = lfjour_cleanup_hook,
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.data = j,
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};
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}
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