server-skynet-source-3rd-je.../jemalloc/src/internal/jemalloc_arena.h

463 lines
14 KiB
C
Raw Normal View History

/******************************************************************************/
#ifdef JEMALLOC_H_TYPES
/*
* Subpages are an artificially designated partitioning of pages. Their only
* purpose is to support subpage-spaced size classes.
*
* There must be at least 4 subpages per page, due to the way size classes are
* handled.
*/
#define LG_SUBPAGE 8
#define SUBPAGE ((size_t)(1U << LG_SUBPAGE))
#define SUBPAGE_MASK (SUBPAGE - 1)
/* Return the smallest subpage multiple that is >= s. */
#define SUBPAGE_CEILING(s) \
(((s) + SUBPAGE_MASK) & ~SUBPAGE_MASK)
#ifdef JEMALLOC_TINY
/* Smallest size class to support. */
# define LG_TINY_MIN 1
#endif
/*
* Maximum size class that is a multiple of the quantum, but not (necessarily)
* a power of 2. Above this size, allocations are rounded up to the nearest
* power of 2.
*/
#define LG_QSPACE_MAX_DEFAULT 7
/*
* Maximum size class that is a multiple of the cacheline, but not (necessarily)
* a power of 2. Above this size, allocations are rounded up to the nearest
* power of 2.
*/
#define LG_CSPACE_MAX_DEFAULT 9
/*
* Maximum medium size class. This must not be more than 1/4 of a chunk
* (LG_MEDIUM_MAX_DEFAULT <= LG_CHUNK_DEFAULT - 2).
*/
#define LG_MEDIUM_MAX_DEFAULT 15
/* Return the smallest medium size class that is >= s. */
#define MEDIUM_CEILING(s) \
(((s) + mspace_mask) & ~mspace_mask)
/*
* Soft limit on the number of medium size classes. Spacing between medium
* size classes never exceeds pagesize, which can force more than NBINS_MAX
* medium size classes.
*/
#define NMBINS_MAX 16
/*
* RUN_MAX_OVRHD indicates maximum desired run header overhead. Runs are sized
* as small as possible such that this setting is still honored, without
* violating other constraints. The goal is to make runs as small as possible
* without exceeding a per run external fragmentation threshold.
*
* We use binary fixed point math for overhead computations, where the binary
* point is implicitly RUN_BFP bits to the left.
*
* Note that it is possible to set RUN_MAX_OVRHD low enough that it cannot be
* honored for some/all object sizes, since there is one bit of header overhead
* per object (plus a constant). This constraint is relaxed (ignored) for runs
* that are so small that the per-region overhead is greater than:
*
* (RUN_MAX_OVRHD / (reg_size << (3+RUN_BFP))
*/
#define RUN_BFP 12
/* \/ Implicit binary fixed point. */
#define RUN_MAX_OVRHD 0x0000003dU
#define RUN_MAX_OVRHD_RELAX 0x00001800U
/* Put a cap on small object run size. This overrides RUN_MAX_OVRHD. */
#define RUN_MAX_SMALL \
(arena_maxclass <= (1U << (CHUNK_MAP_LG_PG_RANGE + PAGE_SHIFT)) \
? arena_maxclass : (1U << (CHUNK_MAP_LG_PG_RANGE + \
PAGE_SHIFT)))
/*
* The minimum ratio of active:dirty pages per arena is computed as:
*
* (nactive >> opt_lg_dirty_mult) >= ndirty
*
* So, supposing that opt_lg_dirty_mult is 5, there can be no less than 32
* times as many active pages as dirty pages.
*/
#define LG_DIRTY_MULT_DEFAULT 5
typedef struct arena_chunk_map_s arena_chunk_map_t;
typedef struct arena_chunk_s arena_chunk_t;
typedef struct arena_run_s arena_run_t;
typedef struct arena_bin_s arena_bin_t;
typedef struct arena_s arena_t;
#endif /* JEMALLOC_H_TYPES */
/******************************************************************************/
#ifdef JEMALLOC_H_STRUCTS
/* Each element of the chunk map corresponds to one page within the chunk. */
struct arena_chunk_map_s {
/*
* Linkage for run trees. There are two disjoint uses:
*
* 1) arena_t's runs_avail tree.
* 2) arena_run_t conceptually uses this linkage for in-use non-full
* runs, rather than directly embedding linkage.
*/
rb_node(arena_chunk_map_t) link;
/*
* Run address (or size) and various flags are stored together. The bit
* layout looks like (assuming 32-bit system):
*
* ???????? ???????? ????cccc ccccdzla
*
* ? : Unallocated: Run address for first/last pages, unset for internal
* pages.
* Small/medium: Don't care.
* Large: Run size for first page, unset for trailing pages.
* - : Unused.
* c : refcount (could overflow for PAGE_SIZE >= 128 KiB)
* d : dirty?
* z : zeroed?
* l : large?
* a : allocated?
*
* Following are example bit patterns for the three types of runs.
*
* p : run page offset
* s : run size
* x : don't care
* - : 0
* [dzla] : bit set
*
* Unallocated:
* ssssssss ssssssss ssss---- --------
* xxxxxxxx xxxxxxxx xxxx---- ----d---
* ssssssss ssssssss ssss---- -----z--
*
* Small/medium:
* pppppppp ppppcccc cccccccc cccc---a
* pppppppp ppppcccc cccccccc cccc---a
* pppppppp ppppcccc cccccccc cccc---a
*
* Large:
* ssssssss ssssssss ssss---- ------la
* -------- -------- -------- ------la
* -------- -------- -------- ------la
*/
size_t bits;
#define CHUNK_MAP_PG_MASK ((size_t)0xfff00000U)
#define CHUNK_MAP_PG_SHIFT 20
#define CHUNK_MAP_LG_PG_RANGE 12
#define CHUNK_MAP_RC_MASK ((size_t)0xffff0U)
#define CHUNK_MAP_RC_ONE ((size_t)0x00010U)
#define CHUNK_MAP_FLAGS_MASK ((size_t)0xfU)
#define CHUNK_MAP_DIRTY ((size_t)0x8U)
#define CHUNK_MAP_ZEROED ((size_t)0x4U)
#define CHUNK_MAP_LARGE ((size_t)0x2U)
#define CHUNK_MAP_ALLOCATED ((size_t)0x1U)
#define CHUNK_MAP_KEY (CHUNK_MAP_DIRTY | CHUNK_MAP_ALLOCATED)
};
typedef rb_tree(arena_chunk_map_t) arena_avail_tree_t;
typedef rb_tree(arena_chunk_map_t) arena_run_tree_t;
/* Arena chunk header. */
struct arena_chunk_s {
/* Arena that owns the chunk. */
arena_t *arena;
/* Linkage for the arena's chunks_dirty tree. */
rb_node(arena_chunk_t) link_dirty;
/*
* True if the chunk is currently in the chunks_dirty tree, due to
* having at some point contained one or more dirty pages. Removal
* from chunks_dirty is lazy, so (dirtied && ndirty == 0) is possible.
*/
bool dirtied;
/* Number of dirty pages. */
size_t ndirty;
/* Map of pages within chunk that keeps track of free/large/small. */
arena_chunk_map_t map[1]; /* Dynamically sized. */
};
typedef rb_tree(arena_chunk_t) arena_chunk_tree_t;
struct arena_run_s {
#ifdef JEMALLOC_DEBUG
uint32_t magic;
# define ARENA_RUN_MAGIC 0x384adf93
#endif
/* Bin this run is associated with. */
arena_bin_t *bin;
/* Index of first element that might have a free region. */
unsigned regs_minelm;
/* Number of free regions in run. */
unsigned nfree;
/* Bitmask of in-use regions (0: in use, 1: free). */
unsigned regs_mask[1]; /* Dynamically sized. */
};
struct arena_bin_s {
/*
* Current run being used to service allocations of this bin's size
* class.
*/
arena_run_t *runcur;
/*
* Tree of non-full runs. This tree is used when looking for an
* existing run when runcur is no longer usable. We choose the
* non-full run that is lowest in memory; this policy tends to keep
* objects packed well, and it can also help reduce the number of
* almost-empty chunks.
*/
arena_run_tree_t runs;
/* Size of regions in a run for this bin's size class. */
size_t reg_size;
/* Total size of a run for this bin's size class. */
size_t run_size;
/* Total number of regions in a run for this bin's size class. */
uint32_t nregs;
/* Number of elements in a run's regs_mask for this bin's size class. */
uint32_t regs_mask_nelms;
/* Offset of first region in a run for this bin's size class. */
uint32_t reg0_offset;
#ifdef JEMALLOC_STATS
/* Bin statistics. */
malloc_bin_stats_t stats;
#endif
};
struct arena_s {
#ifdef JEMALLOC_DEBUG
uint32_t magic;
# define ARENA_MAGIC 0x947d3d24
#endif
/* All operations on this arena require that lock be locked. */
malloc_mutex_t lock;
#ifdef JEMALLOC_STATS
arena_stats_t stats;
# ifdef JEMALLOC_TCACHE
/*
* List of tcaches for extant threads associated with this arena.
* Stats from these are merged incrementally, and at exit.
*/
ql_head(tcache_t) tcache_ql;
# endif
#endif
#ifdef JEMALLOC_TRACE
# define TRACE_BUF_SIZE 65536
unsigned trace_buf_end;
char trace_buf[TRACE_BUF_SIZE];
int trace_fd;
#endif
/* Tree of dirty-page-containing chunks this arena manages. */
arena_chunk_tree_t chunks_dirty;
/*
* In order to avoid rapid chunk allocation/deallocation when an arena
* oscillates right on the cusp of needing a new chunk, cache the most
* recently freed chunk. The spare is left in the arena's chunk trees
* until it is deleted.
*
* There is one spare chunk per arena, rather than one spare total, in
* order to avoid interactions between multiple threads that could make
* a single spare inadequate.
*/
arena_chunk_t *spare;
/* Number of pages in active runs. */
size_t nactive;
/*
* Current count of pages within unused runs that are potentially
* dirty, and for which madvise(... MADV_DONTNEED) has not been called.
* By tracking this, we can institute a limit on how much dirty unused
* memory is mapped for each arena.
*/
size_t ndirty;
/*
* Size/address-ordered tree of this arena's available runs. This tree
* is used for first-best-fit run allocation.
*/
arena_avail_tree_t runs_avail;
/*
* bins is used to store trees of free regions of the following sizes,
* assuming a 16-byte quantum, 4 KiB page size, and default
* JEMALLOC_OPTIONS.
*
* bins[i] | size |
* --------+--------+
* 0 | 2 |
* 1 | 4 |
* 2 | 8 |
* --------+--------+
* 3 | 16 |
* 4 | 32 |
* 5 | 48 |
* : :
* 8 | 96 |
* 9 | 112 |
* 10 | 128 |
* --------+--------+
* 11 | 192 |
* 12 | 256 |
* 13 | 320 |
* 14 | 384 |
* 15 | 448 |
* 16 | 512 |
* --------+--------+
* 17 | 768 |
* 18 | 1024 |
* 19 | 1280 |
* : :
* 27 | 3328 |
* 28 | 3584 |
* 29 | 3840 |
* --------+--------+
* 30 | 4 KiB |
* 31 | 6 KiB |
* 33 | 8 KiB |
* : :
* 43 | 28 KiB |
* 44 | 30 KiB |
* 45 | 32 KiB |
* --------+--------+
*/
arena_bin_t bins[1]; /* Dynamically sized. */
};
#endif /* JEMALLOC_H_STRUCTS */
/******************************************************************************/
#ifdef JEMALLOC_H_EXTERNS
extern size_t opt_lg_qspace_max;
extern size_t opt_lg_cspace_max;
extern size_t opt_lg_medium_max;
extern ssize_t opt_lg_dirty_mult;
extern uint8_t const *small_size2bin;
/* Various bin-related settings. */
#ifdef JEMALLOC_TINY /* Number of (2^n)-spaced tiny bins. */
# define ntbins ((unsigned)(LG_QUANTUM - LG_TINY_MIN))
#else
# define ntbins 0
#endif
extern unsigned nqbins; /* Number of quantum-spaced bins. */
extern unsigned ncbins; /* Number of cacheline-spaced bins. */
extern unsigned nsbins; /* Number of subpage-spaced bins. */
extern unsigned nmbins; /* Number of medium bins. */
extern unsigned nbins;
extern unsigned mbin0; /* mbin offset (nbins - nmbins). */
#ifdef JEMALLOC_TINY
# define tspace_max ((size_t)(QUANTUM >> 1))
#endif
#define qspace_min QUANTUM
extern size_t qspace_max;
extern size_t cspace_min;
extern size_t cspace_max;
extern size_t sspace_min;
extern size_t sspace_max;
#define small_maxclass sspace_max
#define medium_min PAGE_SIZE
extern size_t medium_max;
#define bin_maxclass medium_max
/* Spacing between medium size classes. */
extern size_t lg_mspace;
extern size_t mspace_mask;
#define nlclasses ((chunksize - PAGE_SIZE) >> PAGE_SHIFT)
#ifdef JEMALLOC_TCACHE
void arena_tcache_fill(arena_t *arena, tcache_bin_t *tbin, size_t binind);
#endif
void *arena_malloc_small(arena_t *arena, size_t size, bool zero);
void *arena_malloc_medium(arena_t *arena, size_t size, bool zero);
void *arena_malloc(size_t size, bool zero);
void *arena_palloc(arena_t *arena, size_t alignment, size_t size,
size_t alloc_size);
size_t arena_salloc(const void *ptr);
void arena_dalloc_bin(arena_t *arena, arena_chunk_t *chunk, void *ptr,
arena_chunk_map_t *mapelm);
void arena_dalloc_large(arena_t *arena, arena_chunk_t *chunk, void *ptr);
#ifdef JEMALLOC_STATS
void arena_stats_merge(arena_t *arena, size_t *nactive, size_t *ndirty,
arena_stats_t *astats, malloc_bin_stats_t *bstats,
malloc_large_stats_t *lstats);
#endif
void *arena_ralloc(void *ptr, size_t size, size_t oldsize);
bool arena_new(arena_t *arena, unsigned ind);
bool arena_boot(void);
#endif /* JEMALLOC_H_EXTERNS */
/******************************************************************************/
#ifdef JEMALLOC_H_INLINES
#ifndef JEMALLOC_ENABLE_INLINE
void arena_dalloc(arena_t *arena, arena_chunk_t *chunk, void *ptr);
#endif
#if (defined(JEMALLOC_ENABLE_INLINE) || defined(JEMALLOC_ARENA_C_))
JEMALLOC_INLINE void
arena_dalloc(arena_t *arena, arena_chunk_t *chunk, void *ptr)
{
size_t pageind;
arena_chunk_map_t *mapelm;
assert(arena != NULL);
assert(arena->magic == ARENA_MAGIC);
assert(chunk->arena == arena);
assert(ptr != NULL);
assert(CHUNK_ADDR2BASE(ptr) != ptr);
pageind = (((uintptr_t)ptr - (uintptr_t)chunk) >> PAGE_SHIFT);
mapelm = &chunk->map[pageind];
assert((mapelm->bits & CHUNK_MAP_ALLOCATED) != 0);
if ((mapelm->bits & CHUNK_MAP_LARGE) == 0) {
/* Small allocation. */
#ifdef JEMALLOC_TCACHE
tcache_t *tcache;
if ((tcache = tcache_get()) != NULL)
tcache_dalloc(tcache, ptr);
else {
#endif
malloc_mutex_lock(&arena->lock);
arena_dalloc_bin(arena, chunk, ptr, mapelm);
malloc_mutex_unlock(&arena->lock);
#ifdef JEMALLOC_TCACHE
}
#endif
} else
arena_dalloc_large(arena, chunk, ptr);
}
#endif
#endif /* JEMALLOC_H_INLINES */
/******************************************************************************/