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gerrit.nordix.org / fdio / vpp / ee5cd4e47078f0f3f0cab93fd1aff3bf1e70bca5 / . / src / vppinfra / mem_bulk.c
blob: ba8b2e9490910fc3d5116e86efa8a989d8cbb487 [file] [log] [blame]
/*
* Copyright (c) 2020 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <vppinfra/clib.h>
#include <vppinfra/mem.h>
#include <vppinfra/time.h>
#include <vppinfra/format.h>
#include <vppinfra/clib_error.h>
/* while usage of dlmalloc APIs is genrally discouraged, in this particular
* case there is significant benefit of calling them directly due to
* smaller memory consuption (no wwp and headroom space) */
#include <vppinfra/dlmalloc.h>
#define CLIB_MEM_BULK_DEFAULT_MIN_ELTS_PER_CHUNK 32
typedef struct clib_mem_bulk_chunk_hdr
{
u32 freelist;
u32 n_free;
struct clib_mem_bulk_chunk_hdr *prev, *next;
} clib_mem_bulk_chunk_hdr_t;
typedef struct
{
u32 elt_sz;
u32 chunk_hdr_sz;
u32 elts_per_chunk;
u32 align;
u32 chunk_align;
void *mspace;
clib_mem_bulk_chunk_hdr_t *full_chunks, *avail_chunks;
} clib_mem_bulk_t;
static inline uword
bulk_chunk_size (clib_mem_bulk_t *b)
{
return (uword) b->elts_per_chunk * b->elt_sz + b->chunk_hdr_sz;
}
__clib_export clib_mem_bulk_handle_t
clib_mem_bulk_init (u32 elt_sz, u32 align, u32 min_elts_per_chunk)
{
clib_mem_heap_t *heap = clib_mem_get_heap ();
clib_mem_bulk_t *b;
uword sz;
if ((b = mspace_memalign (heap->mspace, 16, sizeof (clib_mem_bulk_t))) == 0)
return 0;
if (align < 16)
align = 16;
if (min_elts_per_chunk == 0)
min_elts_per_chunk = CLIB_MEM_BULK_DEFAULT_MIN_ELTS_PER_CHUNK;
CLIB_MEM_UNPOISON (b, sizeof (clib_mem_bulk_t));
clib_memset (b, 0, sizeof (clib_mem_bulk_t));
b->mspace = heap->mspace;
b->align = align;
b->elt_sz = round_pow2 (elt_sz, align);
b->chunk_hdr_sz = round_pow2 (sizeof (clib_mem_bulk_chunk_hdr_t), align);
b->elts_per_chunk = min_elts_per_chunk;
sz = bulk_chunk_size (b);
b->chunk_align = max_pow2 (sz);
b->elts_per_chunk += (b->chunk_align - sz) / b->elt_sz;
return b;
}
__clib_export void
clib_mem_bulk_destroy (clib_mem_bulk_handle_t h)
{
clib_mem_bulk_t *b = h;
clib_mem_bulk_chunk_hdr_t *c, *next;
void *ms = b->mspace;
c = b->full_chunks;
again:
while (c)
{
next = c->next;
CLIB_MEM_POISON (c, bulk_chunk_size (b));
mspace_free (ms, c);
c = next;
}
if (b->avail_chunks)
{
c = b->avail_chunks;
b->avail_chunks = 0;
goto again;
}
CLIB_MEM_POISON (b, sizeof (clib_mem_bulk_t));
mspace_free (ms, b);
}
static inline void *
get_chunk_elt_ptr (clib_mem_bulk_t *b, clib_mem_bulk_chunk_hdr_t *c, u32 index)
{
return (u8 *) c + b->chunk_hdr_sz + index * b->elt_sz;
}
static inline void
add_to_chunk_list (clib_mem_bulk_chunk_hdr_t **first,
clib_mem_bulk_chunk_hdr_t *c)
{
c->next = *first;
c->prev = 0;
if (c->next)
c->next->prev = c;
*first = c;
}
static inline void
remove_from_chunk_list (clib_mem_bulk_chunk_hdr_t **first,
clib_mem_bulk_chunk_hdr_t *c)
{
if (c->next)
c->next->prev = c->prev;
if (c->prev)
c->prev->next = c->next;
else
*first = c->next;
}
__clib_export void *
clib_mem_bulk_alloc (clib_mem_bulk_handle_t h)
{
clib_mem_bulk_t *b = h;
clib_mem_bulk_chunk_hdr_t *c = b->avail_chunks;
u32 elt_idx;
if (b->avail_chunks == 0)
{
u32 i, sz = bulk_chunk_size (b);
c = mspace_memalign (b->mspace, b->chunk_align, sz);
CLIB_MEM_UNPOISON (c, sz);
clib_memset (c, 0, sizeof (clib_mem_bulk_chunk_hdr_t));
b->avail_chunks = c;
c->n_free = b->elts_per_chunk;
/* populate freelist */
for (i = 0; i < b->elts_per_chunk - 1; i++)
*((u32 *) get_chunk_elt_ptr (b, c, i)) = i + 1;
*((u32 *) get_chunk_elt_ptr (b, c, i)) = ~0;
}
ASSERT (c->freelist != ~0);
elt_idx = c->freelist;
c->freelist = *((u32 *) get_chunk_elt_ptr (b, c, elt_idx));
c->n_free--;
if (c->n_free == 0)
{
/* chunk is full */
ASSERT (c->freelist == ~0);
remove_from_chunk_list (&b->avail_chunks, c);
add_to_chunk_list (&b->full_chunks, c);
}
return get_chunk_elt_ptr (b, c, elt_idx);
}
__clib_export void
clib_mem_bulk_free (clib_mem_bulk_handle_t h, void *p)
{
clib_mem_bulk_t *b = h;
uword offset = (uword) p & (b->chunk_align - 1);
clib_mem_bulk_chunk_hdr_t *c = (void *) ((u8 *) p - offset);
u32 elt_idx = (offset - b->chunk_hdr_sz) / b->elt_sz;
ASSERT (elt_idx < b->elts_per_chunk);
ASSERT (get_chunk_elt_ptr (b, c, elt_idx) == p);
c->n_free++;
if (c->n_free == b->elts_per_chunk)
{
/* chunk is empty - give it back */
remove_from_chunk_list (&b->avail_chunks, c);
CLIB_MEM_POISON (c, bulk_chunk_size (b));
mspace_free (b->mspace, c);
return;
}
if (c->n_free == 1)
{
/* move chunk to avail chunks */
remove_from_chunk_list (&b->full_chunks, c);
add_to_chunk_list (&b->avail_chunks, c);
}
/* add elt to freelist */
*(u32 *) p = c->freelist;
c->freelist = elt_idx;
}
__clib_export u8 *
format_clib_mem_bulk (u8 *s, va_list *args)
{
clib_mem_bulk_t *b = va_arg (*args, clib_mem_bulk_handle_t);
clib_mem_bulk_chunk_hdr_t *c;
uword n_chunks = 0, n_free_elts = 0, n_elts, chunk_sz;
c = b->full_chunks;
while (c)
{
n_chunks++;
c = c->next;
}
c = b->avail_chunks;
while (c)
{
n_chunks++;
n_free_elts += c->n_free;
c = c->next;
}
n_elts = n_chunks * b->elts_per_chunk;
chunk_sz = b->chunk_hdr_sz + (uword) b->elts_per_chunk * b->elt_sz;
s = format (s, "%u bytes/elt, align %u, chunk-align %u, ", b->elt_sz,
b->align, b->chunk_align);
s = format (s, "%u elts-per-chunk, chunk size %lu bytes", b->elts_per_chunk,
chunk_sz);
if (n_chunks == 0)
return format (s, "\nempty");
s = format (s, "\n%lu chunks allocated, ", n_chunks);
s = format (s, "%lu / %lu free elts (%.1f%%), ", n_free_elts, n_elts,
(f64) n_free_elts * 100 / n_elts);
s = format (s, "%lu bytes of memory consumed", n_chunks * chunk_sz);
return s;
}