/*
* Copyright (C) 2019 Intel Corporation. All rights reserved.
* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
*/
#include "ems_gc_internal.h"
static gc_handle_t
gc_init_internal(gc_heap_t *heap, char *base_addr, gc_size_t heap_max_size)
{
hmu_tree_node_t *root = NULL, *q = NULL;
int ret;
memset(heap, 0, sizeof *heap);
ret = os_mutex_init(&heap->lock);
if (ret != BHT_OK) {
os_printf("[GC_ERROR]failed to init lock\n");
return NULL;
}
/* init all data structures*/
heap->current_size = heap_max_size;
heap->base_addr = (gc_uint8 *)base_addr;
heap->heap_id = (gc_handle_t)heap;
heap->total_free_size = heap->current_size;
heap->highmark_size = 0;
root = heap->kfc_tree_root = (hmu_tree_node_t *)heap->kfc_tree_root_buf;
memset(root, 0, sizeof *root);
root->size = sizeof *root;
hmu_set_ut(&root->hmu_header, HMU_FC);
hmu_set_size(&root->hmu_header, sizeof *root);
q = (hmu_tree_node_t *)heap->base_addr;
memset(q, 0, sizeof *q);
hmu_set_ut(&q->hmu_header, HMU_FC);
hmu_set_size(&q->hmu_header, heap->current_size);
ASSERT_TREE_NODE_ALIGNED_ACCESS(q);
ASSERT_TREE_NODE_ALIGNED_ACCESS(root);
hmu_mark_pinuse(&q->hmu_header);
root->right = q;
q->parent = root;
q->size = heap->current_size;
bh_assert(root->size <= HMU_FC_NORMAL_MAX_SIZE);
return heap;
}
gc_handle_t
gc_init_with_pool(char *buf, gc_size_t buf_size)
{
char *buf_end = buf + buf_size;
char *buf_aligned = (char *)(((uintptr_t)buf + 7) & (uintptr_t)~7);
char *base_addr = buf_aligned + sizeof(gc_heap_t);
gc_heap_t *heap = (gc_heap_t *)buf_aligned;
gc_size_t heap_max_size;
if (buf_size < APP_HEAP_SIZE_MIN) {
os_printf("[GC_ERROR]heap init buf size (%" PRIu32 ") < %" PRIu32 "\n",
buf_size, (uint32)APP_HEAP_SIZE_MIN);
return NULL;
}
base_addr =
(char *)(((uintptr_t)base_addr + 7) & (uintptr_t)~7) + GC_HEAD_PADDING;
heap_max_size = (uint32)(buf_end - base_addr) & (uint32)~7;
#if WASM_ENABLE_MEMORY_TRACING != 0
os_printf("Heap created, total size: %u\n", buf_size);
os_printf(" heap struct size: %u\n", sizeof(gc_heap_t));
os_printf(" actual heap size: %u\n", heap_max_size);
os_printf(" padding bytes: %u\n",
buf_size - sizeof(gc_heap_t) - heap_max_size);
#endif
return gc_init_internal(heap, base_addr, heap_max_size);
}
gc_handle_t
gc_init_with_struct_and_pool(char *struct_buf, gc_size_t struct_buf_size,
char *pool_buf, gc_size_t pool_buf_size)
{
gc_heap_t *heap = (gc_heap_t *)struct_buf;
char *base_addr = pool_buf + GC_HEAD_PADDING;
char *pool_buf_end = pool_buf + pool_buf_size;
gc_size_t heap_max_size;
if ((((uintptr_t)struct_buf) & 7) != 0) {
os_printf("[GC_ERROR]heap init struct buf not 8-byte aligned\n");
return NULL;
}
if (struct_buf_size < sizeof(gc_handle_t)) {
os_printf("[GC_ERROR]heap init struct buf size (%" PRIu32 ") < %zu\n",
struct_buf_size, sizeof(gc_handle_t));
return NULL;
}
if ((((uintptr_t)pool_buf) & 7) != 0) {
os_printf("[GC_ERROR]heap init pool buf not 8-byte aligned\n");
return NULL;
}
if (pool_buf_size < APP_HEAP_SIZE_MIN) {
os_printf("[GC_ERROR]heap init buf size (%" PRIu32 ") < %u\n",
pool_buf_size, APP_HEAP_SIZE_MIN);
return NULL;
}
heap_max_size = (uint32)(pool_buf_end - base_addr) & (uint32)~7;
#if WASM_ENABLE_MEMORY_TRACING != 0
os_printf("Heap created, total size: %u\n",
struct_buf_size + pool_buf_size);
os_printf(" heap struct size: %u\n", sizeof(gc_heap_t));
os_printf(" actual heap size: %u\n", heap_max_size);
os_printf(" padding bytes: %u\n", pool_buf_size - heap_max_size);
#endif
return gc_init_internal(heap, base_addr, heap_max_size);
}
int
gc_destroy_with_pool(gc_handle_t handle)
{
gc_heap_t *heap = (gc_heap_t *)handle;
int ret = GC_SUCCESS;
#if BH_ENABLE_GC_VERIFY != 0
hmu_t *cur = (hmu_t *)heap->base_addr;
hmu_t *end = (hmu_t *)((char *)heap->base_addr + heap->current_size);
if (!heap->is_heap_corrupted
&& (hmu_t *)((char *)cur + hmu_get_size(cur)) != end) {
os_printf("Memory leak detected:\n");
gci_dump(heap);
ret = GC_ERROR;
}
#endif
os_mutex_destroy(&heap->lock);
memset(heap, 0, sizeof(gc_heap_t));
return ret;
}
uint32
gc_get_heap_struct_size()
{
return sizeof(gc_heap_t);
}
static void
adjust_ptr(uint8 **p_ptr, intptr_t offset)
{
if (*p_ptr)
*p_ptr = (uint8 *)((intptr_t)(*p_ptr) + offset);
}
int
gc_migrate(gc_handle_t handle, char *pool_buf_new, gc_size_t pool_buf_size)
{
gc_heap_t *heap = (gc_heap_t *)handle;
char *base_addr_new = pool_buf_new + GC_HEAD_PADDING;
char *pool_buf_end = pool_buf_new + pool_buf_size;
intptr_t offset = (uint8 *)base_addr_new - (uint8 *)heap->base_addr;
hmu_t *cur = NULL, *end = NULL;
hmu_tree_node_t *tree_node;
uint8 **p_left, **p_right, **p_parent;
gc_size_t heap_max_size, size;
if ((((uintptr_t)pool_buf_new) & 7) != 0) {
os_printf("[GC_ERROR]heap migrate pool buf not 8-byte aligned\n");
return GC_ERROR;
}
heap_max_size = (uint32)(pool_buf_end - base_addr_new) & (uint32)~7;
if (pool_buf_end < base_addr_new || heap_max_size < heap->current_size) {
os_printf("[GC_ERROR]heap migrate invlaid pool buf size\n");
return GC_ERROR;
}
if (offset == 0)
return 0;
if (heap->is_heap_corrupted) {
os_printf("[GC_ERROR]Heap is corrupted, heap migrate failed.\n");
return GC_ERROR;
}
heap->base_addr = (uint8 *)base_addr_new;
ASSERT_TREE_NODE_ALIGNED_ACCESS(heap->kfc_tree_root);
p_left = (uint8 **)((uint8 *)heap->kfc_tree_root
+ offsetof(hmu_tree_node_t, left));
p_right = (uint8 **)((uint8 *)heap->kfc_tree_root
+ offsetof(hmu_tree_node_t, right));
p_parent = (uint8 **)((uint8 *)heap->kfc_tree_root
+ offsetof(hmu_tree_node_t, parent));
adjust_ptr(p_left, offset);
adjust_ptr(p_right, offset);
adjust_ptr(p_parent, offset);
cur = (hmu_t *)heap->base_addr;
end = (hmu_t *)((char *)heap->base_addr + heap->current_size);
while (cur < end) {
size = hmu_get_size(cur);
if (size <= 0 || size > (uint32)((uint8 *)end - (uint8 *)cur)) {
os_printf("[GC_ERROR]Heap is corrupted, heap migrate failed.\n");
heap->is_heap_corrupted = true;
return GC_ERROR;
}
if (hmu_get_ut(cur) == HMU_FC && !HMU_IS_FC_NORMAL(size)) {
tree_node = (hmu_tree_node_t *)cur;
ASSERT_TREE_NODE_ALIGNED_ACCESS(tree_node);
p_left = (uint8 **)((uint8 *)tree_node
+ offsetof(hmu_tree_node_t, left));
p_right = (uint8 **)((uint8 *)tree_node
+ offsetof(hmu_tree_node_t, right));
p_parent = (uint8 **)((uint8 *)tree_node
+ offsetof(hmu_tree_node_t, parent));
adjust_ptr(p_left, offset);
adjust_ptr(p_right, offset);
if (tree_node->parent != heap->kfc_tree_root)
/* The root node belongs to heap structure,
it is fixed part and isn't changed. */
adjust_ptr(p_parent, offset);
}
cur = (hmu_t *)((char *)cur + size);
}
if (cur != end) {
os_printf("[GC_ERROR]Heap is corrupted, heap migrate failed.\n");
heap->is_heap_corrupted = true;
return GC_ERROR;
}
return 0;
}
bool
gc_is_heap_corrupted(gc_handle_t handle)
{
gc_heap_t *heap = (gc_heap_t *)handle;
return heap->is_heap_corrupted ? true : false;
}
#if BH_ENABLE_GC_VERIFY != 0
void
gci_verify_heap(gc_heap_t *heap)
{
hmu_t *cur = NULL, *end = NULL;
bh_assert(heap && gci_is_heap_valid(heap));
cur = (hmu_t *)heap->base_addr;
end = (hmu_t *)(heap->base_addr + heap->current_size);
while (cur < end) {
hmu_verify(heap, cur);
cur = (hmu_t *)((gc_uint8 *)cur + hmu_get_size(cur));
}
bh_assert(cur == end);
}
#endif
void *
gc_heap_stats(void *heap_arg, uint32 *stats, int size)
{
int i;
gc_heap_t *heap = (gc_heap_t *)heap_arg;
for (i = 0; i < size; i++) {
switch (i) {
case GC_STAT_TOTAL:
stats[i] = heap->current_size;
break;
case GC_STAT_FREE:
stats[i] = heap->total_free_size;
break;
case GC_STAT_HIGHMARK:
stats[i] = heap->highmark_size;
break;
default:
break;
}
}
return heap;
}