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

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#ifndef JEMALLOC_INTERNAL_SEC_H
#define JEMALLOC_INTERNAL_SEC_H
#include "jemalloc/internal/atomic.h"
#include "jemalloc/internal/pai.h"
/*
* Small extent cache.
*
* This includes some utilities to cache small extents. We have a per-pszind
* bin with its own list of extents of that size. We don't try to do any
* coalescing of extents (since it would in general require cross-shard locks or
* knowledge of the underlying PAI implementation).
*/
/*
* For now, this is just one field; eventually, we'll probably want to get more
* fine-grained data out (like per-size class statistics).
*/
typedef struct sec_stats_s sec_stats_t;
struct sec_stats_s {
/* Sum of bytes_cur across all shards. */
size_t bytes;
};
static inline void
sec_stats_accum(sec_stats_t *dst, sec_stats_t *src) {
dst->bytes += src->bytes;
}
/* A collections of free extents, all of the same size. */
typedef struct sec_bin_s sec_bin_t;
struct sec_bin_s {
/*
* When we fail to fulfill an allocation, we do a batch-alloc on the
* underlying allocator to fill extra items, as well. We drop the SEC
* lock while doing so, to allow operations on other bins to succeed.
* That introduces the possibility of other threads also trying to
* allocate out of this bin, failing, and also going to the backing
* allocator. To avoid a thundering herd problem in which lots of
* threads do batch allocs and overfill this bin as a result, we only
* allow one batch allocation at a time for a bin. This bool tracks
* whether or not some thread is already batch allocating.
*
* Eventually, the right answer may be a smarter sharding policy for the
* bins (e.g. a mutex per bin, which would also be more scalable
* generally; the batch-allocating thread could hold it while
* batch-allocating).
*/
bool being_batch_filled;
/*
* Number of bytes in this particular bin (as opposed to the
* sec_shard_t's bytes_cur. This isn't user visible or reported in
* stats; rather, it allows us to quickly determine the change in the
* centralized counter when flushing.
*/
size_t bytes_cur;
edata_list_active_t freelist;
};
typedef struct sec_shard_s sec_shard_t;
struct sec_shard_s {
/*
* We don't keep per-bin mutexes, even though that would allow more
* sharding; this allows global cache-eviction, which in turn allows for
* better balancing across free lists.
*/
malloc_mutex_t mtx;
/*
* A SEC may need to be shut down (i.e. flushed of its contents and
* prevented from further caching). To avoid tricky synchronization
* issues, we just track enabled-status in each shard, guarded by a
* mutex. In practice, this is only ever checked during brief races,
* since the arena-level atomic boolean tracking HPA enabled-ness means
* that we won't go down these pathways very often after custom extent
* hooks are installed.
*/
bool enabled;
sec_bin_t *bins;
/* Number of bytes in all bins in the shard. */
size_t bytes_cur;
/* The next pszind to flush in the flush-some pathways. */
pszind_t to_flush_next;
};
typedef struct sec_s sec_t;
struct sec_s {
pai_t pai;
pai_t *fallback;
sec_opts_t opts;
sec_shard_t *shards;
pszind_t npsizes;
};
bool sec_init(tsdn_t *tsdn, sec_t *sec, base_t *base, pai_t *fallback,
const sec_opts_t *opts);
void sec_flush(tsdn_t *tsdn, sec_t *sec);
void sec_disable(tsdn_t *tsdn, sec_t *sec);
/*
* Morally, these two stats methods probably ought to be a single one (and the
* mutex_prof_data ought to live in the sec_stats_t. But splitting them apart
* lets them fit easily into the pa_shard stats framework (which also has this
* split), which simplifies the stats management.
*/
void sec_stats_merge(tsdn_t *tsdn, sec_t *sec, sec_stats_t *stats);
void sec_mutex_stats_read(tsdn_t *tsdn, sec_t *sec,
mutex_prof_data_t *mutex_prof_data);
/*
* We use the arena lock ordering; these are acquired in phase 2 of forking, but
* should be acquired before the underlying allocator mutexes.
*/
void sec_prefork2(tsdn_t *tsdn, sec_t *sec);
void sec_postfork_parent(tsdn_t *tsdn, sec_t *sec);
void sec_postfork_child(tsdn_t *tsdn, sec_t *sec);
#endif /* JEMALLOC_INTERNAL_SEC_H */