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|
/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2010-2014 Intel Corporation
*/
#include <stdint.h>
#include <stddef.h>
#include <stdio.h>
#include <string.h>
#include <sys/queue.h>
#include <rte_errno.h>
#include <rte_memcpy.h>
#include <rte_memory.h>
#include <rte_eal.h>
#include <rte_eal_memconfig.h>
#include <rte_branch_prediction.h>
#include <rte_debug.h>
#include <rte_launch.h>
#include <rte_per_lcore.h>
#include <rte_lcore.h>
#include <rte_common.h>
#include <rte_spinlock.h>
#include <rte_malloc.h>
#include "malloc_elem.h"
#include "malloc_heap.h"
#include "eal_memalloc.h"
/* Free the memory space back to heap */
void rte_free(void *addr)
{
if (addr == NULL) return;
if (malloc_heap_free(malloc_elem_from_data(addr)) < 0)
RTE_LOG(ERR, EAL, "Error: Invalid memory\n");
}
/*
* Allocate memory on specified heap.
*/
void *
rte_malloc_socket(const char *type, size_t size, unsigned int align,
int socket_arg)
{
/* return NULL if size is 0 or alignment is not power-of-2 */
if (size == 0 || (align && !rte_is_power_of_2(align)))
return NULL;
/* if there are no hugepages and if we are not allocating from an
* external heap, use memory from any socket available. checking for
* socket being external may return -1 in case of invalid socket, but
* that's OK - if there are no hugepages, it doesn't matter.
*/
if (rte_malloc_heap_socket_is_external(socket_arg) != 1 &&
!rte_eal_has_hugepages())
socket_arg = SOCKET_ID_ANY;
return malloc_heap_alloc(type, size, socket_arg, 0,
align == 0 ? 1 : align, 0, false);
}
/*
* Allocate memory on default heap.
*/
void *
rte_malloc(const char *type, size_t size, unsigned align)
{
return rte_malloc_socket(type, size, align, SOCKET_ID_ANY);
}
/*
* Allocate zero'd memory on specified heap.
*/
void *
rte_zmalloc_socket(const char *type, size_t size, unsigned align, int socket)
{
return rte_malloc_socket(type, size, align, socket);
}
/*
* Allocate zero'd memory on default heap.
*/
void *
rte_zmalloc(const char *type, size_t size, unsigned align)
{
return rte_zmalloc_socket(type, size, align, SOCKET_ID_ANY);
}
/*
* Allocate zero'd memory on specified heap.
*/
void *
rte_calloc_socket(const char *type, size_t num, size_t size, unsigned align, int socket)
{
return rte_zmalloc_socket(type, num * size, align, socket);
}
/*
* Allocate zero'd memory on default heap.
*/
void *
rte_calloc(const char *type, size_t num, size_t size, unsigned align)
{
return rte_zmalloc(type, num * size, align);
}
/*
* Resize allocated memory.
*/
void *
rte_realloc(void *ptr, size_t size, unsigned align)
{
if (ptr == NULL)
return rte_malloc(NULL, size, align);
struct malloc_elem *elem = malloc_elem_from_data(ptr);
if (elem == NULL) {
RTE_LOG(ERR, EAL, "Error: memory corruption detected\n");
return NULL;
}
size = RTE_CACHE_LINE_ROUNDUP(size), align = RTE_CACHE_LINE_ROUNDUP(align);
/* check alignment matches first, and if ok, see if we can resize block */
if (RTE_PTR_ALIGN(ptr,align) == ptr &&
malloc_heap_resize(elem, size) == 0)
return ptr;
/* either alignment is off, or we have no room to expand,
* so move data. */
void *new_ptr = rte_malloc(NULL, size, align);
if (new_ptr == NULL)
return NULL;
const unsigned old_size = elem->size - MALLOC_ELEM_OVERHEAD;
rte_memcpy(new_ptr, ptr, old_size < size ? old_size : size);
rte_free(ptr);
return new_ptr;
}
int
rte_malloc_validate(const void *ptr, size_t *size)
{
const struct malloc_elem *elem = malloc_elem_from_data(ptr);
if (!malloc_elem_cookies_ok(elem))
return -1;
if (size != NULL)
*size = elem->size - elem->pad - MALLOC_ELEM_OVERHEAD;
return 0;
}
/*
* Function to retrieve data for heap on given socket
*/
int
rte_malloc_get_socket_stats(int socket,
struct rte_malloc_socket_stats *socket_stats)
{
struct rte_mem_config *mcfg = rte_eal_get_configuration()->mem_config;
int heap_idx, ret = -1;
rte_rwlock_read_lock(&mcfg->memory_hotplug_lock);
heap_idx = malloc_socket_to_heap_id(socket);
if (heap_idx < 0)
goto unlock;
ret = malloc_heap_get_stats(&mcfg->malloc_heaps[heap_idx],
socket_stats);
unlock:
rte_rwlock_read_unlock(&mcfg->memory_hotplug_lock);
return ret;
}
/*
* Function to dump contents of all heaps
*/
void __rte_experimental
rte_malloc_dump_heaps(FILE *f)
{
struct rte_mem_config *mcfg = rte_eal_get_configuration()->mem_config;
unsigned int idx;
rte_rwlock_read_lock(&mcfg->memory_hotplug_lock);
for (idx = 0; idx < RTE_MAX_HEAPS; idx++) {
fprintf(f, "Heap id: %u\n", idx);
malloc_heap_dump(&mcfg->malloc_heaps[idx], f);
}
rte_rwlock_read_unlock(&mcfg->memory_hotplug_lock);
}
int
rte_malloc_heap_get_socket(const char *name)
{
struct rte_mem_config *mcfg = rte_eal_get_configuration()->mem_config;
struct malloc_heap *heap = NULL;
unsigned int idx;
int ret;
if (name == NULL ||
strnlen(name, RTE_HEAP_NAME_MAX_LEN) == 0 ||
strnlen(name, RTE_HEAP_NAME_MAX_LEN) ==
RTE_HEAP_NAME_MAX_LEN) {
rte_errno = EINVAL;
return -1;
}
rte_rwlock_read_lock(&mcfg->memory_hotplug_lock);
for (idx = 0; idx < RTE_MAX_HEAPS; idx++) {
struct malloc_heap *tmp = &mcfg->malloc_heaps[idx];
if (!strncmp(name, tmp->name, RTE_HEAP_NAME_MAX_LEN)) {
heap = tmp;
break;
}
}
if (heap != NULL) {
ret = heap->socket_id;
} else {
rte_errno = ENOENT;
ret = -1;
}
rte_rwlock_read_unlock(&mcfg->memory_hotplug_lock);
return ret;
}
int
rte_malloc_heap_socket_is_external(int socket_id)
{
struct rte_mem_config *mcfg = rte_eal_get_configuration()->mem_config;
unsigned int idx;
int ret = -1;
if (socket_id == SOCKET_ID_ANY)
return 0;
rte_rwlock_read_lock(&mcfg->memory_hotplug_lock);
for (idx = 0; idx < RTE_MAX_HEAPS; idx++) {
struct malloc_heap *tmp = &mcfg->malloc_heaps[idx];
if ((int)tmp->socket_id == socket_id) {
/* external memory always has large socket ID's */
ret = tmp->socket_id >= RTE_MAX_NUMA_NODES;
break;
}
}
rte_rwlock_read_unlock(&mcfg->memory_hotplug_lock);
return ret;
}
/*
* Print stats on memory type. If type is NULL, info on all types is printed
*/
void
rte_malloc_dump_stats(FILE *f, __rte_unused const char *type)
{
struct rte_mem_config *mcfg = rte_eal_get_configuration()->mem_config;
unsigned int heap_id;
struct rte_malloc_socket_stats sock_stats;
rte_rwlock_read_lock(&mcfg->memory_hotplug_lock);
/* Iterate through all initialised heaps */
for (heap_id = 0; heap_id < RTE_MAX_HEAPS; heap_id++) {
struct malloc_heap *heap = &mcfg->malloc_heaps[heap_id];
malloc_heap_get_stats(heap, &sock_stats);
fprintf(f, "Heap id:%u\n", heap_id);
fprintf(f, "\tHeap name:%s\n", heap->name);
fprintf(f, "\tHeap_size:%zu,\n", sock_stats.heap_totalsz_bytes);
fprintf(f, "\tFree_size:%zu,\n", sock_stats.heap_freesz_bytes);
fprintf(f, "\tAlloc_size:%zu,\n", sock_stats.heap_allocsz_bytes);
fprintf(f, "\tGreatest_free_size:%zu,\n",
sock_stats.greatest_free_size);
fprintf(f, "\tAlloc_count:%u,\n",sock_stats.alloc_count);
fprintf(f, "\tFree_count:%u,\n", sock_stats.free_count);
}
rte_rwlock_read_unlock(&mcfg->memory_hotplug_lock);
return;
}
/*
* TODO: Set limit to memory that can be allocated to memory type
*/
int
rte_malloc_set_limit(__rte_unused const char *type,
__rte_unused size_t max)
{
return 0;
}
/*
* Return the IO address of a virtual address obtained through rte_malloc
*/
rte_iova_t
rte_malloc_virt2iova(const void *addr)
{
const struct rte_memseg *ms;
struct malloc_elem *elem = malloc_elem_from_data(addr);
if (elem == NULL)
return RTE_BAD_IOVA;
if (!elem->msl->external && rte_eal_iova_mode() == RTE_IOVA_VA)
return (uintptr_t) addr;
ms = rte_mem_virt2memseg(addr, elem->msl);
if (ms == NULL)
return RTE_BAD_IOVA;
if (ms->iova == RTE_BAD_IOVA)
return RTE_BAD_IOVA;
return ms->iova + RTE_PTR_DIFF(addr, ms->addr);
}
static struct malloc_heap *
find_named_heap(const char *name)
{
struct rte_mem_config *mcfg = rte_eal_get_configuration()->mem_config;
unsigned int i;
for (i = 0; i < RTE_MAX_HEAPS; i++) {
struct malloc_heap *heap = &mcfg->malloc_heaps[i];
if (!strncmp(name, heap->name, RTE_HEAP_NAME_MAX_LEN))
return heap;
}
return NULL;
}
int
rte_malloc_heap_memory_add(const char *heap_name, void *va_addr, size_t len,
rte_iova_t iova_addrs[], unsigned int n_pages, size_t page_sz)
{
struct rte_mem_config *mcfg = rte_eal_get_configuration()->mem_config;
struct malloc_heap *heap = NULL;
unsigned int n;
int ret;
if (heap_name == NULL || va_addr == NULL ||
page_sz == 0 || !rte_is_power_of_2(page_sz) ||
strnlen(heap_name, RTE_HEAP_NAME_MAX_LEN) == 0 ||
strnlen(heap_name, RTE_HEAP_NAME_MAX_LEN) ==
RTE_HEAP_NAME_MAX_LEN) {
rte_errno = EINVAL;
return -1;
}
rte_rwlock_write_lock(&mcfg->memory_hotplug_lock);
/* find our heap */
heap = find_named_heap(heap_name);
if (heap == NULL) {
rte_errno = ENOENT;
ret = -1;
goto unlock;
}
if (heap->socket_id < RTE_MAX_NUMA_NODES) {
/* cannot add memory to internal heaps */
rte_errno = EPERM;
ret = -1;
goto unlock;
}
n = len / page_sz;
if (n != n_pages && iova_addrs != NULL) {
rte_errno = EINVAL;
ret = -1;
goto unlock;
}
rte_spinlock_lock(&heap->lock);
ret = malloc_heap_add_external_memory(heap, va_addr, iova_addrs, n,
page_sz);
rte_spinlock_unlock(&heap->lock);
unlock:
rte_rwlock_write_unlock(&mcfg->memory_hotplug_lock);
return ret;
}
int
rte_malloc_heap_memory_remove(const char *heap_name, void *va_addr, size_t len)
{
struct rte_mem_config *mcfg = rte_eal_get_configuration()->mem_config;
struct malloc_heap *heap = NULL;
int ret;
if (heap_name == NULL || va_addr == NULL || len == 0 ||
strnlen(heap_name, RTE_HEAP_NAME_MAX_LEN) == 0 ||
strnlen(heap_name, RTE_HEAP_NAME_MAX_LEN) ==
RTE_HEAP_NAME_MAX_LEN) {
rte_errno = EINVAL;
return -1;
}
rte_rwlock_write_lock(&mcfg->memory_hotplug_lock);
/* find our heap */
heap = find_named_heap(heap_name);
if (heap == NULL) {
rte_errno = ENOENT;
ret = -1;
goto unlock;
}
if (heap->socket_id < RTE_MAX_NUMA_NODES) {
/* cannot remove memory from internal heaps */
rte_errno = EPERM;
ret = -1;
goto unlock;
}
rte_spinlock_lock(&heap->lock);
ret = malloc_heap_remove_external_memory(heap, va_addr, len);
rte_spinlock_unlock(&heap->lock);
unlock:
rte_rwlock_write_unlock(&mcfg->memory_hotplug_lock);
return ret;
}
struct sync_mem_walk_arg {
void *va_addr;
size_t len;
int result;
bool attach;
};
static int
sync_mem_walk(const struct rte_memseg_list *msl, void *arg)
{
struct rte_mem_config *mcfg = rte_eal_get_configuration()->mem_config;
struct sync_mem_walk_arg *wa = arg;
size_t len = msl->page_sz * msl->memseg_arr.len;
if (msl->base_va == wa->va_addr &&
len == wa->len) {
struct rte_memseg_list *found_msl;
int msl_idx, ret;
/* msl is const */
msl_idx = msl - mcfg->memsegs;
found_msl = &mcfg->memsegs[msl_idx];
if (wa->attach) {
ret = rte_fbarray_attach(&found_msl->memseg_arr);
} else {
/* notify all subscribers that a memory area is about to
* be removed
*/
eal_memalloc_mem_event_notify(RTE_MEM_EVENT_FREE,
msl->base_va, msl->len);
ret = rte_fbarray_detach(&found_msl->memseg_arr);
}
if (ret < 0) {
wa->result = -rte_errno;
} else {
/* notify all subscribers that a new memory area was
* added
*/
if (wa->attach)
eal_memalloc_mem_event_notify(
RTE_MEM_EVENT_ALLOC,
msl->base_va, msl->len);
wa->result = 0;
}
return 1;
}
return 0;
}
static int
sync_memory(const char *heap_name, void *va_addr, size_t len, bool attach)
{
struct rte_mem_config *mcfg = rte_eal_get_configuration()->mem_config;
struct malloc_heap *heap = NULL;
struct sync_mem_walk_arg wa;
int ret;
if (heap_name == NULL || va_addr == NULL || len == 0 ||
strnlen(heap_name, RTE_HEAP_NAME_MAX_LEN) == 0 ||
strnlen(heap_name, RTE_HEAP_NAME_MAX_LEN) ==
RTE_HEAP_NAME_MAX_LEN) {
rte_errno = EINVAL;
return -1;
}
rte_rwlock_read_lock(&mcfg->memory_hotplug_lock);
/* find our heap */
heap = find_named_heap(heap_name);
if (heap == NULL) {
rte_errno = ENOENT;
ret = -1;
goto unlock;
}
/* we shouldn't be able to sync to internal heaps */
if (heap->socket_id < RTE_MAX_NUMA_NODES) {
rte_errno = EPERM;
ret = -1;
goto unlock;
}
/* find corresponding memseg list to sync to */
wa.va_addr = va_addr;
wa.len = len;
wa.result = -ENOENT; /* fail unless explicitly told to succeed */
wa.attach = attach;
/* we're already holding a read lock */
rte_memseg_list_walk_thread_unsafe(sync_mem_walk, &wa);
if (wa.result < 0) {
rte_errno = -wa.result;
ret = -1;
} else {
/* notify all subscribers that a new memory area was added */
if (attach)
eal_memalloc_mem_event_notify(RTE_MEM_EVENT_ALLOC,
va_addr, len);
ret = 0;
}
unlock:
rte_rwlock_read_unlock(&mcfg->memory_hotplug_lock);
return ret;
}
int
rte_malloc_heap_memory_attach(const char *heap_name, void *va_addr, size_t len)
{
return sync_memory(heap_name, va_addr, len, true);
}
int
rte_malloc_heap_memory_detach(const char *heap_name, void *va_addr, size_t len)
{
return sync_memory(heap_name, va_addr, len, false);
}
int
rte_malloc_heap_create(const char *heap_name)
{
struct rte_mem_config *mcfg = rte_eal_get_configuration()->mem_config;
struct malloc_heap *heap = NULL;
int i, ret;
if (heap_name == NULL ||
strnlen(heap_name, RTE_HEAP_NAME_MAX_LEN) == 0 ||
strnlen(heap_name, RTE_HEAP_NAME_MAX_LEN) ==
RTE_HEAP_NAME_MAX_LEN) {
rte_errno = EINVAL;
return -1;
}
/* check if there is space in the heap list, or if heap with this name
* already exists.
*/
rte_rwlock_write_lock(&mcfg->memory_hotplug_lock);
for (i = 0; i < RTE_MAX_HEAPS; i++) {
struct malloc_heap *tmp = &mcfg->malloc_heaps[i];
/* existing heap */
if (strncmp(heap_name, tmp->name,
RTE_HEAP_NAME_MAX_LEN) == 0) {
RTE_LOG(ERR, EAL, "Heap %s already exists\n",
heap_name);
rte_errno = EEXIST;
ret = -1;
goto unlock;
}
/* empty heap */
if (strnlen(tmp->name, RTE_HEAP_NAME_MAX_LEN) == 0) {
heap = tmp;
break;
}
}
if (heap == NULL) {
RTE_LOG(ERR, EAL, "Cannot create new heap: no space\n");
rte_errno = ENOSPC;
ret = -1;
goto unlock;
}
/* we're sure that we can create a new heap, so do it */
ret = malloc_heap_create(heap, heap_name);
unlock:
rte_rwlock_write_unlock(&mcfg->memory_hotplug_lock);
return ret;
}
int
rte_malloc_heap_destroy(const char *heap_name)
{
struct rte_mem_config *mcfg = rte_eal_get_configuration()->mem_config;
struct malloc_heap *heap = NULL;
int ret;
if (heap_name == NULL ||
strnlen(heap_name, RTE_HEAP_NAME_MAX_LEN) == 0 ||
strnlen(heap_name, RTE_HEAP_NAME_MAX_LEN) ==
RTE_HEAP_NAME_MAX_LEN) {
rte_errno = EINVAL;
return -1;
}
rte_rwlock_write_lock(&mcfg->memory_hotplug_lock);
/* start from non-socket heaps */
heap = find_named_heap(heap_name);
if (heap == NULL) {
RTE_LOG(ERR, EAL, "Heap %s not found\n", heap_name);
rte_errno = ENOENT;
ret = -1;
goto unlock;
}
/* we shouldn't be able to destroy internal heaps */
if (heap->socket_id < RTE_MAX_NUMA_NODES) {
rte_errno = EPERM;
ret = -1;
goto unlock;
}
/* sanity checks done, now we can destroy the heap */
rte_spinlock_lock(&heap->lock);
ret = malloc_heap_destroy(heap);
/* if we failed, lock is still active */
if (ret < 0)
rte_spinlock_unlock(&heap->lock);
unlock:
rte_rwlock_write_unlock(&mcfg->memory_hotplug_lock);
return ret;
}
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