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Primary Git Repository for the Zephyr Project. Zephyr is a new generation, scalable, optimized, secure RTOS for multiple hardware architectures.
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zephyr/kernel/mempool.c

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/*
* Copyright (c) 2017 Intel Corporation
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <kernel.h>
#include <ksched.h>
#include <wait_q.h>
#include <init.h>
#include <string.h>
#include <misc/__assert.h>
#include <stdbool.h>
/* Linker-defined symbols bound the static pool structs */
extern struct k_mem_pool _k_mem_pool_list_start[];
extern struct k_mem_pool _k_mem_pool_list_end[];
s64_t _tick_get(void);
static struct k_mem_pool *get_pool(int id)
{
return &_k_mem_pool_list_start[id];
}
static int pool_id(struct k_mem_pool *pool)
{
return pool - &_k_mem_pool_list_start[0];
}
static void k_mem_pool_init(struct k_mem_pool *p)
{
_waitq_init(&p->wait_q);
_sys_mem_pool_base_init(&p->base);
}
int init_static_pools(struct device *unused)
{
ARG_UNUSED(unused);
struct k_mem_pool *p;
for (p = _k_mem_pool_list_start; p < _k_mem_pool_list_end; p++) {
k_mem_pool_init(p);
}
return 0;
}
SYS_INIT(init_static_pools, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_OBJECTS);
int k_mem_pool_alloc(struct k_mem_pool *p, struct k_mem_block *block,
size_t size, s32_t timeout)
{
int ret;
s64_t end = 0;
__ASSERT(!(_is_in_isr() && timeout != K_NO_WAIT), "");
if (timeout > 0) {
end = _tick_get() + _ms_to_ticks(timeout);
}
while (true) {
u32_t level_num, block_num;
/* There is a "managed race" in alloc that can fail
* (albeit in a well-defined way, see comments there)
* with -EAGAIN when simultaneous allocations happen.
* Retry exactly once before sleeping to resolve it.
* If we're so contended that it fails twice, then we
* clearly want to block.
*/
for (int i = 0; i < 2; i++) {
ret = _sys_mem_pool_block_alloc(&p->base, size,
&level_num, &block_num,
&block->data);
if (ret != -EAGAIN) {
break;
}
}
if (ret == -EAGAIN) {
ret = -ENOMEM;
}
block->id.pool = pool_id(p);
block->id.level = level_num;
block->id.block = block_num;
if (ret == 0 || timeout == K_NO_WAIT ||
(ret && ret != -ENOMEM)) {
return ret;
}
(void)_pend_current_thread(irq_lock(), &p->wait_q, timeout);
if (timeout != K_FOREVER) {
timeout = end - _tick_get();
if (timeout < 0) {
break;
}
}
}
return -EAGAIN;
}
void k_mem_pool_free_id(struct k_mem_block_id *id)
{
int key, need_sched = 0;
struct k_mem_pool *p = get_pool(id->pool);
_sys_mem_pool_block_free(&p->base, id->level, id->block);
/* Wake up anyone blocked on this pool and let them repeat
* their allocation attempts
*/
key = irq_lock();
need_sched = _unpend_all(&p->wait_q);
if (need_sched && !_is_in_isr()) {
_reschedule(key);
} else {
irq_unlock(key);
}
}
void k_mem_pool_free(struct k_mem_block *block)
{
k_mem_pool_free_id(&block->id);
}
void *k_mem_pool_malloc(struct k_mem_pool *pool, size_t size)
{
struct k_mem_block block;
/*
* get a block large enough to hold an initial (hidden) block
* descriptor, as well as the space the caller requested
*/
if (__builtin_add_overflow(size, sizeof(struct k_mem_block_id),
&size)) {
return NULL;
}
if (k_mem_pool_alloc(pool, &block, size, K_NO_WAIT) != 0) {
return NULL;
}
/* save the block descriptor info at the start of the actual block */
(void)memcpy(block.data, &block.id, sizeof(struct k_mem_block_id));
/* return address of the user area part of the block to the caller */
return (char *)block.data + sizeof(struct k_mem_block_id);
}
void k_free(void *ptr)
{
if (ptr != NULL) {
/* point to hidden block descriptor at start of block */
ptr = (char *)ptr - sizeof(struct k_mem_block_id);
/* return block to the heap memory pool */
k_mem_pool_free_id(ptr);
}
}
#if (CONFIG_HEAP_MEM_POOL_SIZE > 0)
/*
* Heap is defined using HEAP_MEM_POOL_SIZE configuration option.
*
* This module defines the heap memory pool and the _HEAP_MEM_POOL symbol
* that has the address of the associated memory pool struct.
*/
K_MEM_POOL_DEFINE(_heap_mem_pool, 64, CONFIG_HEAP_MEM_POOL_SIZE, 1, 4);
#define _HEAP_MEM_POOL (&_heap_mem_pool)
void *k_malloc(size_t size)
{
return k_mem_pool_malloc(_HEAP_MEM_POOL, size);
}
void *k_calloc(size_t nmemb, size_t size)
{
void *ret;
size_t bounds;
if (__builtin_mul_overflow(nmemb, size, &bounds)) {
return NULL;
}
ret = k_malloc(bounds);
if (ret != NULL) {
(void)memset(ret, 0, bounds);
}
return ret;
}
void k_thread_system_pool_assign(struct k_thread *thread)
{
thread->resource_pool = _HEAP_MEM_POOL;
}
#endif
void *z_thread_malloc(size_t size)
{
void *ret;
if (_current->resource_pool != NULL) {
ret = k_mem_pool_malloc(_current->resource_pool, size);
} else {
ret = NULL;
}
return ret;
}