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Spdk/lib/env_ocf/ocf_env.c
paul luse a6dbe3721e update Intel copyright notices 
per Intel policy to include file commit date using git cmd
below.  The policy does not apply to non-Intel (C) notices.

git log --follow -C90% --format=%ad --date default <file> | tail -1

and then pull just the 4 digit year from the result.

Intel copyrights were not added to files where Intel either had
no contribution ot the contribution lacked substance (ie license
header updates, formatting changes, etc).  Contribution date used
"--follow -C95%" to get the most accurate date.

Note that several files in this patch didn't end the license/(c)
block with a blank comment line so these were added as the vast
majority of files do have this last blank line.  Simply there for
consistency.

Signed-off-by: paul luse <paul.e.luse@intel.com>
Change-Id: Id5b7ce4f658fe87132f14139ead58d6e285c04d4
Reviewed-on: https://review.spdk.io/gerrit/c/spdk/spdk/+/15192
Tested-by: SPDK CI Jenkins <sys_sgci@intel.com>
Reviewed-by: Jim Harris <james.r.harris@intel.com>
Reviewed-by: Ben Walker <benjamin.walker@intel.com>
Community-CI: Mellanox Build Bot
2022-11-10 08:28:53 +00:00

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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright (C) 2018 Intel Corporation.
* All rights reserved.
*/
#include "ocf/ocf_def.h"
#include "ocf_env.h"
#include "spdk/crc32.h"
#include "spdk/env.h"
#include "spdk/log.h"
/* Number of buffers for mempool
* Need to be power of two - 1 for better memory utilization
* It depends on memory usage of OCF which
* in itself depends on the workload
* It is a big number because OCF uses allocators
* for every request it sends and receives
*
* The value of 16383 is tested to work on 24 caches
* running IO of io_size=512 and io_depth=512, which
* should be more than enough for any real life scenario.
* Increase this value if needed. It will result in
* more memory being used initially on SPDK app start,
* when compiled with OCF support.
*/
#define ENV_ALLOCATOR_NBUFS 16383
#define GET_ELEMENTS_COUNT(_limit) (_limit < 0 ? ENV_ALLOCATOR_NBUFS : _limit)
/* Use unique index for env allocators */
static env_atomic g_env_allocator_index = 0;
void *
env_allocator_new(env_allocator *allocator)
{
void *mem = spdk_mempool_get(allocator->mempool);
if (spdk_unlikely(!mem)) {
return NULL;
}
if (allocator->zero) {
memset(mem, 0, allocator->element_size);
}
return mem;
}
env_allocator *
env_allocator_create(uint32_t size, const char *name, bool zero)
{
return env_allocator_create_extended(size, name, -1, zero);
}
env_allocator *
env_allocator_create_extended(uint32_t size, const char *name, int limit, bool zero)
{
env_allocator *allocator;
char qualified_name[OCF_ALLOCATOR_NAME_MAX] = {0};
snprintf(qualified_name, OCF_ALLOCATOR_NAME_MAX, "ocf_env_%d:%s",
env_atomic_inc_return(&g_env_allocator_index), name);
allocator = calloc(1, sizeof(*allocator));
if (!allocator) {
return NULL;
}
allocator->mempool = spdk_mempool_create(qualified_name,
GET_ELEMENTS_COUNT(limit), size,
SPDK_MEMPOOL_DEFAULT_CACHE_SIZE,
SPDK_ENV_SOCKET_ID_ANY);
if (!allocator->mempool) {
SPDK_ERRLOG("mempool creation failed\n");
free(allocator);
return NULL;
}
allocator->element_size = size;
allocator->element_count = GET_ELEMENTS_COUNT(limit);
allocator->zero = zero;
return allocator;
}
void
env_allocator_del(env_allocator *allocator, void *item)
{
spdk_mempool_put(allocator->mempool, item);
}
void
env_allocator_destroy(env_allocator *allocator)
{
if (allocator) {
if (allocator->element_count - spdk_mempool_count(allocator->mempool)) {
SPDK_ERRLOG("Not all objects deallocated\n");
assert(false);
}
spdk_mempool_free(allocator->mempool);
free(allocator);
}
}
/* *** CRC *** */
uint32_t
env_crc32(uint32_t crc, uint8_t const *message, size_t len)
{
return spdk_crc32_ieee_update(message, len, crc);
}
/* EXECUTION CONTEXTS */
pthread_mutex_t *exec_context_mutex;
static void
__attribute__((constructor)) init_execution_context(void)
{
unsigned count = env_get_execution_context_count();
unsigned i;
ENV_BUG_ON(count == 0);
exec_context_mutex = malloc(count * sizeof(exec_context_mutex[0]));
ENV_BUG_ON(exec_context_mutex == NULL);
for (i = 0; i < count; i++) {
ENV_BUG_ON(pthread_mutex_init(&exec_context_mutex[i], NULL));
}
}
static void
__attribute__((destructor)) deinit_execution_context(void)
{
unsigned count = env_get_execution_context_count();
unsigned i;
ENV_BUG_ON(count == 0);
ENV_BUG_ON(exec_context_mutex == NULL);
for (i = 0; i < count; i++) {
ENV_BUG_ON(pthread_mutex_destroy(&exec_context_mutex[i]));
}
free(exec_context_mutex);
}
/* get_execution_context must assure that after the call finishes, the caller
* will not get preempted from current execution context. For userspace env
* we simulate this behavior by acquiring per execution context mutex. As a
* result the caller might actually get preempted, but no other thread will
* execute in this context by the time the caller puts current execution ctx. */
unsigned
env_get_execution_context(void)
{
unsigned cpu;
cpu = sched_getcpu();
cpu = (cpu == -1) ? 0 : cpu;
ENV_BUG_ON(pthread_mutex_lock(&exec_context_mutex[cpu]));
return cpu;
}
void
env_put_execution_context(unsigned ctx)
{
pthread_mutex_unlock(&exec_context_mutex[ctx]);
}
unsigned
env_get_execution_context_count(void)
{
int num = sysconf(_SC_NPROCESSORS_ONLN);
return (num == -1) ? 0 : num;
}
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