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

140 lines
3.8 KiB
C
Raw Normal View History

#ifndef JEMALLOC_INTERNAL_HPDATA_H
#define JEMALLOC_INTERNAL_HPDATA_H
#include "jemalloc/internal/flat_bitmap.h"
#include "jemalloc/internal/ph.h"
#include "jemalloc/internal/ql.h"
#include "jemalloc/internal/typed_list.h"
/*
* The metadata representation we use for extents in hugepages. While the PAC
* uses the edata_t to represent both active and inactive extents, the HP only
* uses the edata_t for active ones; instead, inactive extent state is tracked
* within hpdata associated with the enclosing hugepage-sized, hugepage-aligned
* region of virtual address space.
*
* An hpdata need not be "truly" backed by a hugepage (which is not necessarily
* an observable property of any given region of address space). It's just
* hugepage-sized and hugepage-aligned; it's *potentially* huge.
*/
typedef struct hpdata_s hpdata_t;
struct hpdata_s {
/*
* We likewise follow the edata convention of mangling names and forcing
* the use of accessors -- this lets us add some consistency checks on
* access.
*/
/*
* The address of the hugepage in question. This can't be named h_addr,
* since that conflicts with a macro defined in Windows headers.
*/
void *h_address;
/* Its age (measured in psset operations). */
uint64_t h_age;
/* Whether or not we think the hugepage is mapped that way by the OS. */
bool h_huge;
union {
/* When nonempty, used by the psset bins. */
phn(hpdata_t) ph_link;
/*
* When empty (or not corresponding to any hugepage), list
* linkage.
*/
ql_elm(hpdata_t) ql_link;
};
/* Number of currently free pages (regardless of contiguity). */
size_t h_nfree;
/* The length of the largest contiguous sequence of inactive pages. */
size_t h_longest_free_range;
/* A bitmap with bits set in the active pages. */
fb_group_t active_pages[FB_NGROUPS(HUGEPAGE_PAGES)];
};
static inline void *
hpdata_addr_get(const hpdata_t *hpdata) {
return hpdata->h_address;
}
static inline void
hpdata_addr_set(hpdata_t *hpdata, void *addr) {
assert(HUGEPAGE_ADDR2BASE(addr) == addr);
hpdata->h_address = addr;
}
static inline uint64_t
hpdata_age_get(const hpdata_t *hpdata) {
return hpdata->h_age;
}
static inline void
hpdata_age_set(hpdata_t *hpdata, uint64_t age) {
hpdata->h_age = age;
}
static inline bool
hpdata_huge_get(const hpdata_t *hpdata) {
return hpdata->h_huge;
}
static inline void
hpdata_huge_set(hpdata_t *hpdata, bool huge) {
hpdata->h_huge = huge;
}
static inline size_t
hpdata_nfree_get(const hpdata_t *hpdata) {
return hpdata->h_nfree;
}
static inline void
hpdata_nfree_set(hpdata_t *hpdata, size_t nfree) {
assert(nfree <= HUGEPAGE_PAGES);
hpdata->h_nfree = nfree;
}
static inline size_t
hpdata_longest_free_range_get(const hpdata_t *hpdata) {
return hpdata->h_longest_free_range;
}
static inline void
hpdata_longest_free_range_set(hpdata_t *hpdata, size_t longest_free_range) {
assert(longest_free_range <= HUGEPAGE_PAGES);
hpdata->h_longest_free_range = longest_free_range;
}
static inline void
hpdata_assert_empty(hpdata_t *hpdata) {
assert(fb_empty(hpdata->active_pages, HUGEPAGE_PAGES));
assert(hpdata_nfree_get(hpdata) == HUGEPAGE_PAGES);
}
static inline void
hpdata_assert_consistent(hpdata_t *hpdata) {
assert(fb_urange_longest(hpdata->active_pages, HUGEPAGE_PAGES)
== hpdata_longest_free_range_get(hpdata));
}
TYPED_LIST(hpdata_list, hpdata_t, ql_link)
typedef ph(hpdata_t) hpdata_age_heap_t;
ph_proto(, hpdata_age_heap_, hpdata_age_heap_t, hpdata_t);
static inline bool
hpdata_empty(hpdata_t *hpdata) {
return hpdata_nfree_get(hpdata) == HUGEPAGE_PAGES;
}
void hpdata_init(hpdata_t *hpdata, void *addr, uint64_t age);
/*
* Given an hpdata which can serve an allocation request, pick and reserve an
* offset within that allocation.
*/
void *hpdata_reserve_alloc(hpdata_t *hpdata, size_t sz);
void hpdata_unreserve(hpdata_t *hpdata, void *begin, size_t sz);
#endif /* JEMALLOC_INTERNAL_HPDATA_H */