server-skynet-source-3rd-je.../include/jemalloc/internal/pa.h

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#ifndef JEMALLOC_INTERNAL_PA_H
#define JEMALLOC_INTERNAL_PA_H
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#include "jemalloc/internal/base.h"
#include "jemalloc/internal/decay.h"
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#include "jemalloc/internal/ecache.h"
#include "jemalloc/internal/edata_cache.h"
#include "jemalloc/internal/emap.h"
#include "jemalloc/internal/hpa.h"
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#include "jemalloc/internal/lockedint.h"
#include "jemalloc/internal/pac.h"
#include "jemalloc/internal/pai.h"
#include "jemalloc/internal/sec.h"
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/*
* The page allocator; responsible for acquiring pages of memory for
* allocations. It picks the implementation of the page allocator interface
* (i.e. a pai_t) to handle a given page-level allocation request. For now, the
* only such implementation is the PAC code ("page allocator classic"), but
* others will be coming soon.
*/
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/*
* The stats for a particular pa_shard. Because of the way the ctl module
* handles stats epoch data collection (it has its own arena_stats, and merges
* the stats from each arena into it), this needs to live in the arena_stats_t;
* hence we define it here and let the pa_shard have a pointer (rather than the
* more natural approach of just embedding it in the pa_shard itself).
*
* We follow the arena_stats_t approach of marking the derived fields. These
* are the ones that are not maintained on their own; instead, their values are
* derived during those stats merges.
*/
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typedef struct pa_shard_stats_s pa_shard_stats_t;
struct pa_shard_stats_s {
/* Number of edata_t structs allocated by base, but not being used. */
size_t edata_avail; /* Derived. */
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/*
* Stats specific to the PAC. For now, these are the only stats that
* exist, but there will eventually be other page allocators. Things
* like edata_avail make sense in a cross-PA sense, but things like
* npurges don't.
*/
pac_stats_t pac_stats;
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};
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/*
* The local allocator handle. Keeps the state necessary to satisfy page-sized
* allocations.
*
* The contents are mostly internal to the PA module. The key exception is that
* arena decay code is allowed to grab pointers to the dirty and muzzy ecaches
* decay_ts, for a couple of queries, passing them back to a PA function, or
* acquiring decay.mtx and looking at decay.purging. The reasoning is that,
* while PA decides what and how to purge, the arena code decides when and where
* (e.g. on what thread). It's allowed to use the presence of another purger to
* decide.
* (The background thread code also touches some other decay internals, but
* that's not fundamental; its' just an artifact of a partial refactoring, and
* its accesses could be straightforwardly moved inside the decay module).
*/
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typedef struct pa_shard_s pa_shard_t;
struct pa_shard_s {
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/*
* Number of pages in active extents.
*
* Synchronization: atomic.
*/
atomic_zu_t nactive;
/*
* Whether or not we should prefer the hugepage allocator. Atomic since
* it may be concurrently modified by a thread setting extent hooks.
* Note that we still may do HPA operations in this arena; if use_hpa is
* changed from true to false, we'll free back to the hugepage allocator
* for those allocations.
*/
atomic_b_t use_hpa;
/*
* If we never used the HPA to begin with, it wasn't initialized, and so
* we shouldn't try to e.g. acquire its mutexes during fork. This
* tracks that knowledge.
*/
bool ever_used_hpa;
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/* Allocates from a PAC. */
pac_t pac;
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/*
* We place a small extent cache in front of the HPA, since we intend
* these configurations to use many fewer arenas, and therefore have a
* higher risk of hot locks.
*/
sec_t hpa_sec;
hpa_shard_t hpa_shard;
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/* The source of edata_t objects. */
edata_cache_t edata_cache;
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unsigned ind;
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malloc_mutex_t *stats_mtx;
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pa_shard_stats_t *stats;
/* The emap this shard is tied to. */
emap_t *emap;
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/* The base from which we get the ehooks and allocate metadat. */
base_t *base;
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};
static inline bool
pa_shard_dont_decay_muzzy(pa_shard_t *shard) {
return ecache_npages_get(&shard->pac.ecache_muzzy) == 0 &&
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pac_decay_ms_get(&shard->pac, extent_state_muzzy) <= 0;
}
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static inline ehooks_t *
pa_shard_ehooks_get(pa_shard_t *shard) {
return base_ehooks_get(shard->base);
}
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/* Returns true on error. */
bool pa_shard_init(tsdn_t *tsdn, pa_shard_t *shard, emap_t *emap, base_t *base,
unsigned ind, pa_shard_stats_t *stats, malloc_mutex_t *stats_mtx,
nstime_t *cur_time, size_t oversize_threshold, ssize_t dirty_decay_ms,
ssize_t muzzy_decay_ms);
/*
* This isn't exposed to users; we allow late enablement of the HPA shard so
* that we can boot without worrying about the HPA, then turn it on in a0.
*/
bool pa_shard_enable_hpa(tsdn_t *tsdn, pa_shard_t *shard,
const hpa_shard_opts_t *hpa_opts, const sec_opts_t *hpa_sec_opts);
/*
* We stop using the HPA when custom extent hooks are installed, but still
* redirect deallocations to it.
*/
void pa_shard_disable_hpa(tsdn_t *tsdn, pa_shard_t *shard);
/*
* This does the PA-specific parts of arena reset (i.e. freeing all active
* allocations).
*/
void pa_shard_reset(tsdn_t *tsdn, pa_shard_t *shard);
/*
* Destroy all the remaining retained extents. Should only be called after
* decaying all active, dirty, and muzzy extents to the retained state, as the
* last step in destroying the shard.
*/
void pa_shard_destroy(tsdn_t *tsdn, pa_shard_t *shard);
/* Gets an edata for the given allocation. */
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edata_t *pa_alloc(tsdn_t *tsdn, pa_shard_t *shard, size_t size,
size_t alignment, bool slab, szind_t szind, bool zero);
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/* Returns true on error, in which case nothing changed. */
bool pa_expand(tsdn_t *tsdn, pa_shard_t *shard, edata_t *edata, size_t old_size,
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size_t new_size, szind_t szind, bool zero);
/*
* The same. Sets *generated_dirty to true if we produced new dirty pages, and
* false otherwise.
*/
bool pa_shrink(tsdn_t *tsdn, pa_shard_t *shard, edata_t *edata, size_t old_size,
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size_t new_size, szind_t szind, bool *generated_dirty);
/*
* Frees the given edata back to the pa. Sets *generated_dirty if we produced
* new dirty pages (well, we alwyas set it for now; but this need not be the
* case).
* (We could make generated_dirty the return value of course, but this is more
* consistent with the shrink pathway and our error codes here).
*/
void pa_dalloc(tsdn_t *tsdn, pa_shard_t *shard, edata_t *edata,
bool *generated_dirty);
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bool pa_decay_ms_set(tsdn_t *tsdn, pa_shard_t *shard, extent_state_t state,
ssize_t decay_ms, pac_purge_eagerness_t eagerness);
ssize_t pa_decay_ms_get(pa_shard_t *shard, extent_state_t state);
/******************************************************************************/
/*
* Various bits of "boring" functionality that are still part of this module,
* but that we relegate to pa_extra.c, to keep the core logic in pa.c as
* readable as possible.
*/
/*
* These fork phases are synchronized with the arena fork phase numbering to
* make it easy to keep straight. That's why there's no prefork1.
*/
void pa_shard_prefork0(tsdn_t *tsdn, pa_shard_t *shard);
void pa_shard_prefork2(tsdn_t *tsdn, pa_shard_t *shard);
void pa_shard_prefork3(tsdn_t *tsdn, pa_shard_t *shard);
void pa_shard_prefork4(tsdn_t *tsdn, pa_shard_t *shard);
void pa_shard_prefork5(tsdn_t *tsdn, pa_shard_t *shard);
void pa_shard_postfork_parent(tsdn_t *tsdn, pa_shard_t *shard);
void pa_shard_postfork_child(tsdn_t *tsdn, pa_shard_t *shard);
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void pa_shard_basic_stats_merge(pa_shard_t *shard, size_t *nactive,
size_t *ndirty, size_t *nmuzzy);
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void pa_shard_stats_merge(tsdn_t *tsdn, pa_shard_t *shard,
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pa_shard_stats_t *pa_shard_stats_out, pac_estats_t *estats_out,
hpa_shard_stats_t *hpa_stats_out, sec_stats_t *sec_stats_out,
size_t *resident);
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/*
* Reads the PA-owned mutex stats into the output stats array, at the
* appropriate positions. Morally, these stats should really live in
* pa_shard_stats_t, but the indices are sort of baked into the various mutex
* prof macros. This would be a good thing to do at some point.
*/
void pa_shard_mtx_stats_read(tsdn_t *tsdn, pa_shard_t *shard,
mutex_prof_data_t mutex_prof_data[mutex_prof_num_arena_mutexes]);
#endif /* JEMALLOC_INTERNAL_PA_H */