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| | #define _BSD_SOURCE
#include <stdlib.h>
#include <sys/mman.h>
#include "meta.h"
struct mapinfo {
void *base;
size_t len;
};
static struct mapinfo nontrivial_free(struct meta *, int);
static struct mapinfo free_group(struct meta *g)
{
struct mapinfo mi = { 0 };
int sc = g->sizeclass;
if (sc < 48) {
ctx.usage_by_class[sc] -= g->last_idx+1;
}
if (g->maplen) {
step_seq();
record_seq(sc);
mi.base = g->mem;
mi.len = g->maplen*4096UL;
} else {
void *p = g->mem;
unsigned char *untagged = untag(p);
struct meta *m = get_meta(p);
int idx = get_slot_index(untagged);
g->mem->meta = 0;
// not checking size/reserved here; it's intentionally invalid
mi = nontrivial_free(m, idx);
}
free_meta(g);
return mi;
}
static int okay_to_free(struct meta *g)
{
int sc = g->sizeclass;
if (!g->freeable) return 0;
// always free individual mmaps not suitable for reuse
if (sc >= 48 || get_stride(g) < UNIT*size_classes[sc])
return 1;
// always free groups allocated inside another group's slot
// since recreating them should not be expensive and they
// might be blocking freeing of a much larger group.
if (!g->maplen) return 1;
// if there is another non-full group, free this one to
// consolidate future allocations, reduce fragmentation.
if (g->next != g) return 1;
// free any group in a size class that's not bouncing
if (!is_bouncing(sc)) return 1;
size_t cnt = g->last_idx+1;
size_t usage = ctx.usage_by_class[sc];
// if usage is high enough that a larger count should be
// used, free the low-count group so a new one will be made.
if (9*cnt <= usage && cnt < 20)
return 1;
// otherwise, keep the last group in a bouncing class.
return 0;
}
static struct mapinfo nontrivial_free(struct meta *g, int i)
{
uint32_t self = 1u<<i;
int sc = g->sizeclass;
uint32_t mask = g->freed_mask | g->avail_mask;
if (mask+self == (2u<<g->last_idx)-1 && okay_to_free(g)) {
// any multi-slot group is necessarily on an active list
// here, but single-slot groups might or might not be.
if (g->next) {
assert(sc < 48);
int activate_new = (ctx.active[sc]==g);
dequeue(&ctx.active[sc], g);
if (activate_new && ctx.active[sc])
activate_group(ctx.active[sc]);
}
return free_group(g);
} else if (!mask) {
assert(sc < 48);
// might still be active if there were no allocations
// after last available slot was taken.
if (ctx.active[sc] != g) {
queue(&ctx.active[sc], g);
}
}
a_or(&g->freed_mask, self);
return (struct mapinfo){ 0 };
}
void free(void *p)
{
if (!p) return;
void *untagged = untag(p);
struct meta *g = get_meta(p);
int idx = get_slot_index(untagged);
size_t stride = get_stride(g);
unsigned char *start = g->mem->storage + stride*idx;
unsigned char *end = start + stride - IB;
#ifdef MEMTAG
size_t nom_size = get_nominal_size(untagged, end);
// Check that p has the proper tag before zero-tagging
// Should raise an exception if p has the wrong tag.
// If the pointer was obtained via a 0-size alloc, skip the tag check.
if (nom_size > 0)
((unsigned char *)p)[0] = 0;
untag_region(untagged, 0, nom_size);
#endif
uint32_t self = 1u<<idx, all = (2u<<g->last_idx)-1;
((unsigned char *)untagged)[-3] = 255;
// invalidate offset to group header, and cycle offset of
// used region within slot if current offset is zero.
*(uint16_t *)((char *)untagged-2) = 0;
// release any whole pages contained in the slot to be freed
// unless it's a single-slot group that will be unmapped.
if (((uintptr_t)(start-1) ^ (uintptr_t)end) >= 2*PGSZ && g->last_idx) {
unsigned char *base = start + (-(uintptr_t)start & (PGSZ-1));
size_t len = (end-base) & -PGSZ;
if (len && USE_MADV_FREE) {
int e = errno;
madvise(base, len, MADV_FREE);
errno = e;
}
}
// atomic free without locking if this is neither first or last slot
for (;;) {
uint32_t freed = g->freed_mask;
uint32_t avail = g->avail_mask;
uint32_t mask = freed | avail;
assert(!(mask&self));
if (!freed || mask+self==all) break;
if (!MT)
g->freed_mask = freed+self;
else if (a_cas(&g->freed_mask, freed, freed+self)!=freed)
continue;
return;
}
wrlock();
struct mapinfo mi = nontrivial_free(g, idx);
unlock();
if (mi.len) {
int e = errno;
munmap(mi.base, mi.len);
errno = e;
}
}
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