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

#ifndef JEMALLOC_INTERNAL_SEC_H
#define JEMALLOC_INTERNAL_SEC_H

#include "jemalloc/internal/jemalloc_preamble.h"
#include "jemalloc/internal/base.h"
#include "jemalloc/internal/atomic.h"
#include "jemalloc/internal/mutex.h"
#include "jemalloc/internal/pai.h"
#include "jemalloc/internal/sec_opts.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 */
Add SEC module: a small extent cache. This can be used to take pressure off a more centralized, worse-sharded allocator without requiring a full break of the arena abstraction. 2020-10-16 04:46:38 +08:00			`#ifndef JEMALLOC_INTERNAL_SEC_H`
			`#define JEMALLOC_INTERNAL_SEC_H`

Make headers self-contained by fixing `#include`s Header files are now self-contained, which makes the relationships between the files clearer, and crucially allows LSP tools like `clangd` to function correctly in all of our header files. I have verified that the headers are self-contained (aside from the various Windows shims) by compiling them as if they were C files – in a follow-up commit I plan to add this to CI to ensure we don't regress on this front. 2023-06-10 08:37:47 +08:00			`#include "jemalloc/internal/jemalloc_preamble.h"`
			`#include "jemalloc/internal/base.h"`
Add SEC module: a small extent cache. This can be used to take pressure off a more centralized, worse-sharded allocator without requiring a full break of the arena abstraction. 2020-10-16 04:46:38 +08:00			`#include "jemalloc/internal/atomic.h"`
Make headers self-contained by fixing `#include`s Header files are now self-contained, which makes the relationships between the files clearer, and crucially allows LSP tools like `clangd` to function correctly in all of our header files. I have verified that the headers are self-contained (aside from the various Windows shims) by compiling them as if they were C files – in a follow-up commit I plan to add this to CI to ensure we don't regress on this front. 2023-06-10 08:37:47 +08:00			`#include "jemalloc/internal/mutex.h"`
Add SEC module: a small extent cache. This can be used to take pressure off a more centralized, worse-sharded allocator without requiring a full break of the arena abstraction. 2020-10-16 04:46:38 +08:00			`#include "jemalloc/internal/pai.h"`
Make headers self-contained by fixing `#include`s Header files are now self-contained, which makes the relationships between the files clearer, and crucially allows LSP tools like `clangd` to function correctly in all of our header files. I have verified that the headers are self-contained (aside from the various Windows shims) by compiling them as if they were C files – in a follow-up commit I plan to add this to CI to ensure we don't regress on this front. 2023-06-10 08:37:47 +08:00			`#include "jemalloc/internal/sec_opts.h"`
Add SEC module: a small extent cache. This can be used to take pressure off a more centralized, worse-sharded allocator without requiring a full break of the arena abstraction. 2020-10-16 04:46:38 +08:00
			`/*`
			`* Small extent cache.`
			`*`
			`* This includes some utilities to cache small extents. We have a per-pszind`
SEC: Reduce lock hold times. Only flush a subset of extents during flushing, and drop the lock while doing so. 2021-01-06 07:52:25 +08:00			`* 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).`
Add SEC module: a small extent cache. This can be used to take pressure off a more centralized, worse-sharded allocator without requiring a full break of the arena abstraction. 2020-10-16 04:46:38 +08:00			`*/`

			`/*`
			`* 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;`
			`}`

SEC: Reduce lock hold times. Only flush a subset of extents during flushing, and drop the lock while doing so. 2021-01-06 07:52:25 +08:00			`/* A collections of free extents, all of the same size. */`
			`typedef struct sec_bin_s sec_bin_t;`
			`struct sec_bin_s {`
SEC: Use batch fills. Currently, this doesn't help much, since no PAI implementation supports flushing. This will change in subsequent commits. 2021-01-20 05:06:43 +08:00			`/*`
			`* 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;`

SEC: Reduce lock hold times. Only flush a subset of extents during flushing, and drop the lock while doing so. 2021-01-06 07:52:25 +08:00			`/*`
			`* 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;`
			`};`

Add SEC module: a small extent cache. This can be used to take pressure off a more centralized, worse-sharded allocator without requiring a full break of the arena abstraction. 2020-10-16 04:46:38 +08:00			`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: Allow arbitrarily many shards, cached sizes. 2021-05-19 05:52:46 +08:00			`sec_bin_t *bins;`
SEC: Reduce lock hold times. Only flush a subset of extents during flushing, and drop the lock while doing so. 2021-01-06 07:52:25 +08:00			`/* Number of bytes in all bins in the shard. */`
Add SEC module: a small extent cache. This can be used to take pressure off a more centralized, worse-sharded allocator without requiring a full break of the arena abstraction. 2020-10-16 04:46:38 +08:00			`size_t bytes_cur;`
SEC: Reduce lock hold times. Only flush a subset of extents during flushing, and drop the lock while doing so. 2021-01-06 07:52:25 +08:00			`/* The next pszind to flush in the flush-some pathways. */`
			`pszind_t to_flush_next;`
Add SEC module: a small extent cache. This can be used to take pressure off a more centralized, worse-sharded allocator without requiring a full break of the arena abstraction. 2020-10-16 04:46:38 +08:00			`};`

			`typedef struct sec_s sec_t;`
			`struct sec_s {`
			`pai_t pai;`
			`pai_t *fallback;`

SEC: Expand option configurability. This change pulls the SEC options into a struct, which simplifies their handling across various modules (e.g. PA needs to forward on SEC options from the malloc_conf string, but it doesn't really need to know their names). While we're here, make some of the fixed constants configurable, and unify naming from the configuration options to the internals. 2021-01-27 10:35:18 +08:00			`sec_opts_t opts;`
SEC: Allow arbitrarily many shards, cached sizes. 2021-05-19 05:52:46 +08:00			`sec_shard_t *shards;`
			`pszind_t npsizes;`
Add SEC module: a small extent cache. This can be used to take pressure off a more centralized, worse-sharded allocator without requiring a full break of the arena abstraction. 2020-10-16 04:46:38 +08:00			`};`

SEC: Allow arbitrarily many shards, cached sizes. 2021-05-19 05:52:46 +08:00			`bool sec_init(tsdn_t tsdn, sec_t sec, base_t base, pai_t fallback,`
			`const sec_opts_t *opts);`
Add SEC module: a small extent cache. This can be used to take pressure off a more centralized, worse-sharded allocator without requiring a full break of the arena abstraction. 2020-10-16 04:46:38 +08:00			`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 */`