2017-08-11 05:27:58 +08:00
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#ifndef JEMALLOC_INTERNAL_CACHE_BIN_H
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#define JEMALLOC_INTERNAL_CACHE_BIN_H
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2017-08-12 08:34:21 +08:00
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#include "jemalloc/internal/ql.h"
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2020-02-18 03:48:42 +08:00
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#include "jemalloc/internal/sz.h"
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2017-08-12 08:34:21 +08:00
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/*
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* The cache_bins are the mechanism that the tcache and the arena use to
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* communicate. The tcache fills from and flushes to the arena by passing a
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* cache_bin_t to fill/flush. When the arena needs to pull stats from the
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* tcaches associated with it, it does so by iterating over its
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* cache_bin_array_descriptor_t objects and reading out per-bin stats it
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* contains. This makes it so that the arena need not know about the existence
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* of the tcache at all.
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*/
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2019-08-31 02:52:15 +08:00
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/* The size in bytes of each cache bin stack. */
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typedef uint16_t cache_bin_sz_t;
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2017-08-11 05:27:58 +08:00
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typedef struct cache_bin_stats_s cache_bin_stats_t;
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struct cache_bin_stats_s {
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/*
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* Number of allocation requests that corresponded to the size of this
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* bin.
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*/
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uint64_t nrequests;
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};
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/*
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* Read-only information associated with each element of tcache_t's tbins array
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* is stored separately, mainly to reduce memory usage.
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*/
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typedef struct cache_bin_info_s cache_bin_info_t;
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struct cache_bin_info_s {
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2019-08-15 04:08:06 +08:00
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/* The size of the bin stack, i.e. ncached_max * sizeof(ptr). */
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cache_bin_sz_t stack_size;
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2017-08-11 05:27:58 +08:00
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};
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typedef struct cache_bin_s cache_bin_t;
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struct cache_bin_s {
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/*
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2019-08-10 13:12:47 +08:00
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* The cache bin stack is represented using 3 pointers: cur_ptr,
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* low_water and full, optimized for the fast path efficiency.
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*
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* low addr ==> high addr
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* |----|----|----|item1|item2|.....................|itemN|
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* full cur empty
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* (ncached == N; full + ncached_max == empty)
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*
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* Data directly stored:
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* 1) cur_ptr points to the current item to be allocated, i.e. *cur_ptr.
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* 2) full points to the top of the stack (i.e. ncached == ncached_max),
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* which is compared against on free_fastpath to check "is_full".
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* 3) low_water indicates a low water mark of ncached.
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2019-08-21 09:14:18 +08:00
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* Range of low_water is [cur, empty], i.e. values of [ncached, 0].
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2019-08-10 13:12:47 +08:00
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*
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* The empty position (ncached == 0) is derived via full + ncached_max
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* and not accessed in the common case (guarded behind low_water).
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*
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* On 64-bit, 2 of the 3 pointers (full and low water) are compressed by
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* omitting the high 32 bits. Overflow of the half pointers is avoided
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* when allocating / initializing the stack space. As a result,
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* cur_ptr.lowbits can be safely used for pointer comparisons.
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*/
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union {
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void **ptr;
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struct {
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/* highbits never accessed directly. */
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#if (LG_SIZEOF_PTR == 3 && defined(JEMALLOC_BIG_ENDIAN))
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uint32_t __highbits;
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#endif
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uint32_t lowbits;
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#if (LG_SIZEOF_PTR == 3 && !defined(JEMALLOC_BIG_ENDIAN))
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uint32_t __highbits;
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#endif
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};
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} cur_ptr;
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/*
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* cur_ptr and stats are both modified frequently. Let's keep them
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2017-08-11 05:27:58 +08:00
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* close so that they have a higher chance of being on the same
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* cacheline, thus less write-backs.
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*/
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cache_bin_stats_t tstats;
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/*
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2019-08-10 13:12:47 +08:00
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* Points to the first item that hasn't been used since last GC, to
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2019-08-21 09:14:18 +08:00
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* track the low water mark (min # of cached).
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2019-08-10 13:12:47 +08:00
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*/
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uint32_t low_water_position;
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/*
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* Points to the position when the cache is full.
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2017-08-11 05:27:58 +08:00
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*
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* To make use of adjacent cacheline prefetch, the items in the avail
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2019-08-10 13:12:47 +08:00
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* stack goes to higher address for newer allocations (i.e. cur_ptr++).
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2017-08-11 05:27:58 +08:00
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*/
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2019-08-10 13:12:47 +08:00
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uint32_t full_position;
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2017-08-11 05:27:58 +08:00
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};
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2017-08-12 08:34:21 +08:00
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typedef struct cache_bin_array_descriptor_s cache_bin_array_descriptor_t;
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struct cache_bin_array_descriptor_s {
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/*
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* The arena keeps a list of the cache bins associated with it, for
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* stats collection.
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*/
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ql_elm(cache_bin_array_descriptor_t) link;
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/* Pointers to the tcache bins. */
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cache_bin_t *bins_small;
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cache_bin_t *bins_large;
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};
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2019-08-10 13:12:47 +08:00
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/*
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* None of the cache_bin_*_get / _set functions is used on the fast path, which
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* relies on pointer comparisons to determine if the cache is full / empty.
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*/
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2019-08-15 04:08:06 +08:00
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/* Returns ncached_max: Upper limit on ncached. */
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static inline cache_bin_sz_t
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2020-02-27 09:23:47 +08:00
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cache_bin_info_ncached_max(cache_bin_info_t *info) {
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return info->stack_size / sizeof(void *);
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2019-08-15 04:08:06 +08:00
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}
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2019-08-10 13:12:47 +08:00
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static inline cache_bin_sz_t
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2020-02-26 04:14:48 +08:00
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cache_bin_ncached_get(cache_bin_t *bin, szind_t ind, cache_bin_info_t *infos) {
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cache_bin_sz_t n = (cache_bin_sz_t)((infos[ind].stack_size +
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2019-10-18 07:46:45 +08:00
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bin->full_position - bin->cur_ptr.lowbits) / sizeof(void *));
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2020-02-27 09:23:47 +08:00
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assert(n <= cache_bin_info_ncached_max(&infos[ind]));
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2019-08-10 13:12:47 +08:00
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assert(n == 0 || *(bin->cur_ptr.ptr) != NULL);
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return n;
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}
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static inline void **
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2020-02-26 04:14:48 +08:00
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cache_bin_empty_position_get(cache_bin_t *bin, szind_t ind,
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cache_bin_info_t *infos) {
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void **ret = bin->cur_ptr.ptr + cache_bin_ncached_get(bin, ind, infos);
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2019-08-10 13:12:47 +08:00
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/* Low bits overflow disallowed when allocating the space. */
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assert((uint32_t)(uintptr_t)ret >= bin->cur_ptr.lowbits);
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/* Can also be computed via (full_position + ncached_max) | highbits. */
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2020-02-26 04:14:48 +08:00
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uintptr_t lowbits = bin->full_position + infos[ind].stack_size;
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2019-08-15 04:08:06 +08:00
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uintptr_t highbits = (uintptr_t)bin->cur_ptr.ptr &
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~(((uint64_t)1 << 32) - 1);
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assert(ret == (void **)(lowbits | highbits));
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2019-08-10 13:12:47 +08:00
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return ret;
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}
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2019-08-31 02:52:15 +08:00
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/* Returns the numeric value of low water in [0, ncached]. */
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2019-08-10 13:12:47 +08:00
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static inline cache_bin_sz_t
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2020-02-26 04:14:48 +08:00
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cache_bin_low_water_get(cache_bin_t *bin, szind_t ind,
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cache_bin_info_t *infos) {
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2020-02-27 09:23:47 +08:00
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cache_bin_sz_t ncached_max = cache_bin_info_ncached_max(&infos[ind]);
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2019-08-15 04:08:06 +08:00
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cache_bin_sz_t low_water = ncached_max -
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2019-10-18 07:46:45 +08:00
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(cache_bin_sz_t)((bin->low_water_position - bin->full_position) /
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sizeof(void *));
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2019-08-31 02:52:15 +08:00
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assert(low_water <= ncached_max);
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2020-02-26 04:14:48 +08:00
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assert(low_water <= cache_bin_ncached_get(bin, ind, infos));
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2019-08-10 13:12:47 +08:00
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assert(bin->low_water_position >= bin->cur_ptr.lowbits);
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return low_water;
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}
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static inline void
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2020-02-26 04:14:48 +08:00
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cache_bin_ncached_set(cache_bin_t *bin, szind_t ind, cache_bin_sz_t n,
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cache_bin_info_t *infos) {
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bin->cur_ptr.lowbits = bin->full_position + infos[ind].stack_size
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- n * sizeof(void *);
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2020-02-27 09:23:47 +08:00
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assert(n <= cache_bin_info_ncached_max(&infos[ind]));
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2019-08-10 13:12:47 +08:00
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assert(n == 0 || *bin->cur_ptr.ptr != NULL);
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}
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2017-08-12 08:34:21 +08:00
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static inline void
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cache_bin_array_descriptor_init(cache_bin_array_descriptor_t *descriptor,
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cache_bin_t *bins_small, cache_bin_t *bins_large) {
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ql_elm_new(descriptor, link);
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descriptor->bins_small = bins_small;
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descriptor->bins_large = bins_large;
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}
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2019-10-09 02:33:55 +08:00
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#define INVALID_SZIND ((szind_t)(unsigned)-1)
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2017-08-11 05:27:58 +08:00
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JEMALLOC_ALWAYS_INLINE void *
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2019-10-09 02:33:55 +08:00
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cache_bin_alloc_easy_impl(cache_bin_t *bin, bool *success, szind_t ind,
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2020-02-26 04:14:48 +08:00
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cache_bin_info_t *infos, const bool adjust_low_water) {
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2018-10-19 04:13:57 +08:00
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/*
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2019-08-10 13:12:47 +08:00
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* This may read from the empty position; however the loaded value won't
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* be used. It's safe because the stack has one more slot reserved.
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2018-10-09 03:29:57 +08:00
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*/
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2019-08-10 13:12:47 +08:00
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void *ret = *(bin->cur_ptr.ptr++);
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/*
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* Check for both bin->ncached == 0 and ncached < low_water in a single
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2019-10-09 02:33:55 +08:00
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* branch. When adjust_low_water is true, this also avoids accessing
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2020-02-26 04:14:48 +08:00
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* the cache_bin_info_ts (which is on a separate cacheline / page) in
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* the common case.
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2019-08-10 13:12:47 +08:00
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*/
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2019-08-21 09:14:18 +08:00
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if (unlikely(bin->cur_ptr.lowbits > bin->low_water_position)) {
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2019-10-09 02:33:55 +08:00
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if (adjust_low_water) {
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assert(ind != INVALID_SZIND);
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uint32_t empty_position = bin->full_position +
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2020-02-26 04:14:48 +08:00
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infos[ind].stack_size;
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2019-10-09 02:33:55 +08:00
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if (unlikely(bin->cur_ptr.lowbits > empty_position)) {
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/* Over-allocated; revert. */
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bin->cur_ptr.ptr--;
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assert(bin->cur_ptr.lowbits == empty_position);
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*success = false;
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return NULL;
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}
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bin->low_water_position = bin->cur_ptr.lowbits;
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} else {
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assert(ind == INVALID_SZIND);
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2019-08-10 13:12:47 +08:00
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bin->cur_ptr.ptr--;
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2019-10-09 02:33:55 +08:00
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assert(bin->cur_ptr.lowbits == bin->low_water_position);
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2018-10-09 03:29:57 +08:00
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*success = false;
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return NULL;
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}
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2017-08-11 05:27:58 +08:00
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}
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2018-10-19 04:13:57 +08:00
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2017-08-11 05:27:58 +08:00
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/*
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* success (instead of ret) should be checked upon the return of this
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* function. We avoid checking (ret == NULL) because there is never a
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* null stored on the avail stack (which is unknown to the compiler),
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* and eagerly checking ret would cause pipeline stall (waiting for the
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* cacheline).
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*/
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*success = true;
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return ret;
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}
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2019-10-09 02:33:55 +08:00
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JEMALLOC_ALWAYS_INLINE void *
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cache_bin_alloc_easy_reduced(cache_bin_t *bin, bool *success) {
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/* The szind parameter won't be used. */
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2020-02-26 04:14:48 +08:00
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return cache_bin_alloc_easy_impl(bin, success, INVALID_SZIND,
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/* infos */ NULL, false);
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2019-10-09 02:33:55 +08:00
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}
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JEMALLOC_ALWAYS_INLINE void *
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2020-02-26 04:14:48 +08:00
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cache_bin_alloc_easy(cache_bin_t *bin, bool *success, szind_t ind,
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cache_bin_info_t *infos) {
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return cache_bin_alloc_easy_impl(bin, success, ind, infos, true);
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2019-10-09 02:33:55 +08:00
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}
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#undef INVALID_SZIND
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2018-10-19 04:13:57 +08:00
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JEMALLOC_ALWAYS_INLINE bool
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2019-08-10 13:12:47 +08:00
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cache_bin_dalloc_easy(cache_bin_t *bin, void *ptr) {
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if (unlikely(bin->cur_ptr.lowbits == bin->full_position)) {
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2018-10-19 04:13:57 +08:00
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return false;
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}
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2019-08-10 13:12:47 +08:00
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*(--bin->cur_ptr.ptr) = ptr;
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assert(bin->cur_ptr.lowbits >= bin->full_position);
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2018-10-19 04:13:57 +08:00
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return true;
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}
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2020-02-27 09:10:12 +08:00
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typedef struct cache_bin_ptr_array_s cache_bin_ptr_array_t;
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struct cache_bin_ptr_array_s {
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cache_bin_sz_t nflush;
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void **ptr;
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};
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#define CACHE_BIN_PTR_ARRAY_DECLARE(name, nflush_val) \
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cache_bin_ptr_array_t name; \
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name.nflush = (nflush_val)
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static inline void
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cache_bin_ptr_array_init(cache_bin_ptr_array_t *arr, cache_bin_t *bin,
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cache_bin_sz_t nflush, szind_t ind, cache_bin_info_t *infos) {
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arr->ptr = cache_bin_empty_position_get(bin, ind, infos) - 1;
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assert(cache_bin_ncached_get(bin, ind, infos) == 0
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|| *arr->ptr != NULL);
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}
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JEMALLOC_ALWAYS_INLINE void *
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cache_bin_ptr_array_get(cache_bin_ptr_array_t *arr, cache_bin_sz_t n) {
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return *(arr->ptr - n);
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}
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JEMALLOC_ALWAYS_INLINE void
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cache_bin_ptr_array_set(cache_bin_ptr_array_t *arr, cache_bin_sz_t n, void *p) {
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*(arr->ptr - n) = p;
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}
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2017-08-11 05:27:58 +08:00
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#endif /* JEMALLOC_INTERNAL_CACHE_BIN_H */
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