/* * Copyright (C) 2019 Intel Corporation. All rights reserved. * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception */ #include "wasm_runtime_common.h" #include "../interpreter/wasm_runtime.h" #include "../aot/aot_runtime.h" #include "mem_alloc.h" #include "wasm_memory.h" #if WASM_ENABLE_SHARED_MEMORY != 0 #include "../common/wasm_shared_memory.h" #endif #if WASM_ENABLE_THREAD_MGR != 0 #include "../libraries/thread-mgr/thread_manager.h" #endif typedef enum Memory_Mode { MEMORY_MODE_UNKNOWN = 0, MEMORY_MODE_POOL, MEMORY_MODE_ALLOCATOR, MEMORY_MODE_SYSTEM_ALLOCATOR } Memory_Mode; static Memory_Mode memory_mode = MEMORY_MODE_UNKNOWN; static mem_allocator_t pool_allocator = NULL; #if WASM_ENABLE_SHARED_HEAP != 0 static WASMSharedHeap *shared_heap_list = NULL; static korp_mutex shared_heap_list_lock; #endif static enlarge_memory_error_callback_t enlarge_memory_error_cb; static void *enlarge_memory_error_user_data; #if WASM_MEM_ALLOC_WITH_USER_DATA != 0 static void *allocator_user_data = NULL; #endif static void *(*malloc_func)( #if WASM_MEM_ALLOC_WITH_USAGE != 0 mem_alloc_usage_t usage, #endif #if WASM_MEM_ALLOC_WITH_USER_DATA != 0 void *user_data, #endif unsigned int size) = NULL; static void *(*realloc_func)( #if WASM_MEM_ALLOC_WITH_USAGE != 0 mem_alloc_usage_t usage, bool full_size_mmaped, #endif #if WASM_MEM_ALLOC_WITH_USER_DATA != 0 void *user_data, #endif void *ptr, unsigned int size) = NULL; static void (*free_func)( #if WASM_MEM_ALLOC_WITH_USAGE != 0 mem_alloc_usage_t usage, #endif #if WASM_MEM_ALLOC_WITH_USER_DATA != 0 void *user_data, #endif void *ptr) = NULL; static unsigned int global_pool_size; static uint64 align_as_and_cast(uint64 size, uint64 alignment) { uint64 aligned_size = (size + alignment - 1) & ~(alignment - 1); return aligned_size; } static bool wasm_memory_init_with_pool(void *mem, unsigned int bytes) { mem_allocator_t allocator = mem_allocator_create(mem, bytes); if (allocator) { memory_mode = MEMORY_MODE_POOL; pool_allocator = allocator; global_pool_size = bytes; return true; } LOG_ERROR("Init memory with pool (%p, %u) failed.\n", mem, bytes); return false; } #if WASM_MEM_ALLOC_WITH_USER_DATA != 0 static bool wasm_memory_init_with_allocator(void *_user_data, void *_malloc_func, void *_realloc_func, void *_free_func) { if (_malloc_func && _free_func && _malloc_func != _free_func) { memory_mode = MEMORY_MODE_ALLOCATOR; allocator_user_data = _user_data; malloc_func = _malloc_func; realloc_func = _realloc_func; free_func = _free_func; return true; } LOG_ERROR("Init memory with allocator (%p, %p, %p, %p) failed.\n", _user_data, _malloc_func, _realloc_func, _free_func); return false; } #else static bool wasm_memory_init_with_allocator(void *malloc_func_ptr, void *realloc_func_ptr, void *free_func_ptr) { if (malloc_func_ptr && free_func_ptr && malloc_func_ptr != free_func_ptr) { memory_mode = MEMORY_MODE_ALLOCATOR; malloc_func = malloc_func_ptr; realloc_func = realloc_func_ptr; free_func = free_func_ptr; return true; } LOG_ERROR("Init memory with allocator (%p, %p, %p) failed.\n", malloc_func_ptr, realloc_func_ptr, free_func_ptr); return false; } #endif static inline bool is_bounds_checks_enabled(WASMModuleInstanceCommon *module_inst) { #if WASM_CONFIGURABLE_BOUNDS_CHECKS != 0 if (!module_inst) { return true; } return wasm_runtime_is_bounds_checks_enabled(module_inst); #else return true; #endif } #if WASM_ENABLE_SHARED_HEAP != 0 static void * wasm_mmap_linear_memory(uint64_t map_size, uint64 commit_size); static void wasm_munmap_linear_memory(void *mapped_mem, uint64 commit_size, uint64 map_size); static void * runtime_malloc(uint64 size) { void *mem; if (size >= UINT32_MAX || !(mem = wasm_runtime_malloc((uint32)size))) { LOG_WARNING("Allocate memory failed"); return NULL; } memset(mem, 0, (uint32)size); return mem; } WASMSharedHeap * wasm_runtime_create_shared_heap(SharedHeapInitArgs *init_args) { uint64 heap_struct_size = sizeof(WASMSharedHeap), map_size; uint32 size = init_args->size; WASMSharedHeap *heap; if (size == 0) { goto fail1; } if (!(heap = runtime_malloc(heap_struct_size))) { goto fail1; } if (!(heap->heap_handle = runtime_malloc(mem_allocator_get_heap_struct_size()))) { goto fail2; } size = align_uint(size, os_getpagesize()); heap->size = size; heap->start_off_mem64 = UINT64_MAX - heap->size + 1; heap->start_off_mem32 = UINT32_MAX - heap->size + 1; if (size > APP_HEAP_SIZE_MAX || size < APP_HEAP_SIZE_MIN) { LOG_WARNING("Invalid size of shared heap"); goto fail3; } #ifndef OS_ENABLE_HW_BOUND_CHECK map_size = size; #else /* Totally 8G is mapped, the opcode load/store address range is 0 to 8G: * ea = i + memarg.offset * both i and memarg.offset are u32 in range 0 to 4G * so the range of ea is 0 to 8G */ map_size = 8 * (uint64)BH_GB; #endif if (!(heap->base_addr = wasm_mmap_linear_memory(map_size, size))) { goto fail3; } if (!mem_allocator_create_with_struct_and_pool( heap->heap_handle, heap_struct_size, heap->base_addr, size)) { LOG_WARNING("init share heap failed"); goto fail4; } os_mutex_lock(&shared_heap_list_lock); if (shared_heap_list == NULL) { shared_heap_list = heap; } else { heap->next = shared_heap_list; shared_heap_list = heap; } os_mutex_unlock(&shared_heap_list_lock); return heap; fail4: wasm_munmap_linear_memory(heap->base_addr, size, map_size); fail3: wasm_runtime_free(heap->heap_handle); fail2: wasm_runtime_free(heap); fail1: return NULL; } bool wasm_runtime_attach_shared_heap_internal(WASMModuleInstanceCommon *module_inst, WASMSharedHeap *shared_heap) { WASMMemoryInstance *memory = wasm_get_default_memory((WASMModuleInstance *)module_inst); uint64 linear_mem_size; if (!memory) return false; linear_mem_size = memory->memory_data_size; /* check if linear memory and shared heap are overlapped */ if ((memory->is_memory64 && linear_mem_size > shared_heap->start_off_mem64) || (!memory->is_memory64 && linear_mem_size > shared_heap->start_off_mem32)) { LOG_WARNING("Linear memory address is overlapped with shared heap"); return false; } #if WASM_ENABLE_INTERP != 0 if (module_inst->module_type == Wasm_Module_Bytecode) { WASMModuleInstanceExtra *e = (WASMModuleInstanceExtra *)((WASMModuleInstance *)module_inst)->e; if (e->shared_heap) { LOG_WARNING("A shared heap is already attached"); return false; } e->shared_heap = shared_heap; #if WASM_ENABLE_JIT != 0 #if UINTPTR_MAX == UINT64_MAX if (memory->is_memory64) e->shared_heap_start_off.u64 = shared_heap->start_off_mem64; else e->shared_heap_start_off.u64 = shared_heap->start_off_mem32; e->shared_heap_base_addr_adj = shared_heap->base_addr - e->shared_heap_start_off.u64; #else e->shared_heap_start_off.u32[0] = (uint32)shared_heap->start_off_mem32; e->shared_heap_base_addr_adj = shared_heap->base_addr - e->shared_heap_start_off.u32[0]; #endif #endif /* end of WASM_ENABLE_JIT != 0 */ } #endif /* end of WASM_ENABLE_INTERP != 0 */ #if WASM_ENABLE_AOT != 0 if (module_inst->module_type == Wasm_Module_AoT) { AOTModuleInstanceExtra *e = (AOTModuleInstanceExtra *)((AOTModuleInstance *)module_inst)->e; if (e->shared_heap) { LOG_WARNING("A shared heap is already attached"); return false; } e->shared_heap = shared_heap; #if UINTPTR_MAX == UINT64_MAX if (memory->is_memory64) e->shared_heap_start_off.u64 = shared_heap->start_off_mem64; else e->shared_heap_start_off.u64 = shared_heap->start_off_mem32; e->shared_heap_base_addr_adj = shared_heap->base_addr - e->shared_heap_start_off.u64; #else e->shared_heap_start_off.u32[0] = (uint32)shared_heap->start_off_mem32; e->shared_heap_base_addr_adj = shared_heap->base_addr - e->shared_heap_start_off.u32[0]; #endif } #endif /* end of WASM_ENABLE_AOT != 0 */ return true; } bool wasm_runtime_attach_shared_heap(WASMModuleInstanceCommon *module_inst, WASMSharedHeap *shared_heap) { #if WASM_ENABLE_THREAD_MGR != 0 return wasm_cluster_attach_shared_heap(module_inst, shared_heap); #else return wasm_runtime_attach_shared_heap_internal(module_inst, shared_heap); #endif } void wasm_runtime_detach_shared_heap_internal(WASMModuleInstanceCommon *module_inst) { #if WASM_ENABLE_INTERP != 0 if (module_inst->module_type == Wasm_Module_Bytecode) { WASMModuleInstanceExtra *e = (WASMModuleInstanceExtra *)((WASMModuleInstance *)module_inst)->e; e->shared_heap = NULL; #if WASM_ENABLE_JIT != 0 #if UINTPTR_MAX == UINT64_MAX e->shared_heap_start_off.u64 = UINT64_MAX; #else e->shared_heap_start_off.u32[0] = UINT32_MAX; #endif e->shared_heap_base_addr_adj = NULL; #endif } #endif /* end of WASM_ENABLE_INTERP != 0 */ #if WASM_ENABLE_AOT != 0 if (module_inst->module_type == Wasm_Module_AoT) { AOTModuleInstanceExtra *e = (AOTModuleInstanceExtra *)((AOTModuleInstance *)module_inst)->e; e->shared_heap = NULL; #if UINTPTR_MAX == UINT64_MAX e->shared_heap_start_off.u64 = UINT64_MAX; #else e->shared_heap_start_off.u32[0] = UINT32_MAX; #endif e->shared_heap_base_addr_adj = NULL; } #endif /* end of WASM_ENABLE_AOT != 0 */ } void wasm_runtime_detach_shared_heap(WASMModuleInstanceCommon *module_inst) { #if WASM_ENABLE_THREAD_MGR != 0 wasm_cluster_detach_shared_heap(module_inst); #else wasm_runtime_detach_shared_heap_internal(module_inst); #endif } static WASMSharedHeap * get_shared_heap(WASMModuleInstanceCommon *module_inst_comm) { #if WASM_ENABLE_INTERP != 0 if (module_inst_comm->module_type == Wasm_Module_Bytecode) { return ((WASMModuleInstance *)module_inst_comm)->e->shared_heap; } #endif #if WASM_ENABLE_AOT != 0 if (module_inst_comm->module_type == Wasm_Module_AoT) { AOTModuleInstanceExtra *e = (AOTModuleInstanceExtra *)((AOTModuleInstance *)module_inst_comm) ->e; return e->shared_heap; } #endif return NULL; } WASMSharedHeap * wasm_runtime_get_shared_heap(WASMModuleInstanceCommon *module_inst_comm) { return get_shared_heap(module_inst_comm); } static bool is_app_addr_in_shared_heap(WASMModuleInstanceCommon *module_inst, bool is_memory64, uint64 app_offset, uint32 bytes) { WASMSharedHeap *heap = get_shared_heap(module_inst); if (!heap) { return false; } if (bytes == 0) { bytes = 1; } if (!is_memory64) { if (app_offset >= heap->start_off_mem32 && app_offset <= UINT32_MAX - bytes + 1) { return true; } } else { if (app_offset >= heap->start_off_mem64 && app_offset <= UINT64_MAX - bytes + 1) { return true; } } return false; } static bool is_native_addr_in_shared_heap(WASMModuleInstanceCommon *module_inst, uint8 *addr, uint32 bytes) { WASMSharedHeap *heap = get_shared_heap(module_inst); uintptr_t base_addr; uintptr_t addr_int; uintptr_t end_addr; if (!heap) { return false; } base_addr = (uintptr_t)heap->base_addr; addr_int = (uintptr_t)addr; if (addr_int < base_addr) { return false; } end_addr = addr_int + bytes; /* Check for overflow */ if (end_addr <= addr_int) { return false; } if (end_addr > base_addr + heap->size) { return false; } return true; } uint64 wasm_runtime_shared_heap_malloc(WASMModuleInstanceCommon *module_inst, uint64_t size, void **p_native_addr) { WASMMemoryInstance *memory = wasm_get_default_memory((WASMModuleInstance *)module_inst); WASMSharedHeap *shared_heap = get_shared_heap(module_inst); void *native_addr = NULL; if (!memory || !shared_heap) return 0; native_addr = mem_allocator_malloc(shared_heap->heap_handle, size); if (!native_addr) return 0; if (p_native_addr) { *p_native_addr = native_addr; } if (memory->is_memory64) return shared_heap->start_off_mem64 + ((uint8 *)native_addr - shared_heap->base_addr); else return shared_heap->start_off_mem32 + ((uint8 *)native_addr - shared_heap->base_addr); } void wasm_runtime_shared_heap_free(WASMModuleInstanceCommon *module_inst, uint64 ptr) { WASMMemoryInstance *memory = wasm_get_default_memory((WASMModuleInstance *)module_inst); WASMSharedHeap *shared_heap = get_shared_heap(module_inst); uint8 *addr = NULL; if (!memory || !shared_heap) { return; } if (memory->is_memory64) { if (ptr < shared_heap->start_off_mem64) { /* ptr can not > UINT64_MAX */ LOG_WARNING("The address to free isn't in shared heap"); return; } addr = shared_heap->base_addr + (ptr - shared_heap->start_off_mem64); } else { if (ptr < shared_heap->start_off_mem32 || ptr > UINT32_MAX) { LOG_WARNING("The address to free isn't in shared heap"); return; } addr = shared_heap->base_addr + (ptr - shared_heap->start_off_mem32); } mem_allocator_free(shared_heap->heap_handle, addr); } #endif /* end of WASM_ENABLE_SHARED_HEAP != 0 */ bool wasm_runtime_memory_init(mem_alloc_type_t mem_alloc_type, const MemAllocOption *alloc_option) { bool ret = false; #if WASM_ENABLE_SHARED_HEAP != 0 if (os_mutex_init(&shared_heap_list_lock)) { return false; } #endif if (mem_alloc_type == Alloc_With_Pool) { ret = wasm_memory_init_with_pool(alloc_option->pool.heap_buf, alloc_option->pool.heap_size); } else if (mem_alloc_type == Alloc_With_Allocator) { ret = wasm_memory_init_with_allocator( #if WASM_MEM_ALLOC_WITH_USER_DATA != 0 alloc_option->allocator.user_data, #endif alloc_option->allocator.malloc_func, alloc_option->allocator.realloc_func, alloc_option->allocator.free_func); } else if (mem_alloc_type == Alloc_With_System_Allocator) { memory_mode = MEMORY_MODE_SYSTEM_ALLOCATOR; ret = true; } else { ret = false; } #if WASM_ENABLE_SHARED_HEAP != 0 if (!ret) { os_mutex_destroy(&shared_heap_list_lock); } #endif return ret; } #if WASM_ENABLE_SHARED_HEAP != 0 static void destroy_shared_heaps() { WASMSharedHeap *heap; WASMSharedHeap *cur; uint64 map_size; os_mutex_lock(&shared_heap_list_lock); heap = shared_heap_list; shared_heap_list = NULL; os_mutex_unlock(&shared_heap_list_lock); while (heap) { cur = heap; heap = heap->next; mem_allocator_destroy(cur->heap_handle); wasm_runtime_free(cur->heap_handle); #ifndef OS_ENABLE_HW_BOUND_CHECK map_size = cur->size; #else map_size = 8 * (uint64)BH_GB; #endif wasm_munmap_linear_memory(cur->base_addr, cur->size, map_size); wasm_runtime_free(cur); } os_mutex_destroy(&shared_heap_list_lock); } #endif void wasm_runtime_memory_destroy(void) { #if WASM_ENABLE_SHARED_HEAP != 0 destroy_shared_heaps(); #endif if (memory_mode == MEMORY_MODE_POOL) { #if BH_ENABLE_GC_VERIFY == 0 (void)mem_allocator_destroy(pool_allocator); #else int ret = mem_allocator_destroy(pool_allocator); if (ret != 0) { /* Memory leak detected */ exit(-1); } #endif } memory_mode = MEMORY_MODE_UNKNOWN; } unsigned wasm_runtime_memory_pool_size(void) { if (memory_mode == MEMORY_MODE_POOL) return global_pool_size; else return UINT32_MAX; } static inline void * wasm_runtime_malloc_internal(unsigned int size) { if (memory_mode == MEMORY_MODE_UNKNOWN) { LOG_WARNING( "wasm_runtime_malloc failed: memory hasn't been initialized.\n"); return NULL; } else if (memory_mode == MEMORY_MODE_POOL) { return mem_allocator_malloc(pool_allocator, size); } else if (memory_mode == MEMORY_MODE_ALLOCATOR) { return malloc_func( #if WASM_MEM_ALLOC_WITH_USAGE != 0 Alloc_For_Runtime, #endif #if WASM_MEM_ALLOC_WITH_USER_DATA != 0 allocator_user_data, #endif size); } else { return os_malloc(size); } } static inline void * wasm_runtime_realloc_internal(void *ptr, unsigned int size) { if (memory_mode == MEMORY_MODE_UNKNOWN) { LOG_WARNING( "wasm_runtime_realloc failed: memory hasn't been initialized.\n"); return NULL; } else if (memory_mode == MEMORY_MODE_POOL) { return mem_allocator_realloc(pool_allocator, ptr, size); } else if (memory_mode == MEMORY_MODE_ALLOCATOR) { if (realloc_func) return realloc_func( #if WASM_MEM_ALLOC_WITH_USAGE != 0 Alloc_For_Runtime, false, #endif #if WASM_MEM_ALLOC_WITH_USER_DATA != 0 allocator_user_data, #endif ptr, size); else return NULL; } else { return os_realloc(ptr, size); } } static inline void wasm_runtime_free_internal(void *ptr) { if (!ptr) { LOG_WARNING("warning: wasm_runtime_free with NULL pointer\n"); #if BH_ENABLE_GC_VERIFY != 0 exit(-1); #endif return; } if (memory_mode == MEMORY_MODE_UNKNOWN) { LOG_WARNING("warning: wasm_runtime_free failed: " "memory hasn't been initialize.\n"); } else if (memory_mode == MEMORY_MODE_POOL) { mem_allocator_free(pool_allocator, ptr); } else if (memory_mode == MEMORY_MODE_ALLOCATOR) { free_func( #if WASM_MEM_ALLOC_WITH_USAGE != 0 Alloc_For_Runtime, #endif #if WASM_MEM_ALLOC_WITH_USER_DATA != 0 allocator_user_data, #endif ptr); } else { os_free(ptr); } } void * wasm_runtime_malloc(unsigned int size) { if (size == 0) { LOG_WARNING("warning: wasm_runtime_malloc with size zero\n"); /* At lease alloc 1 byte to avoid malloc failed */ size = 1; #if BH_ENABLE_GC_VERIFY != 0 exit(-1); #endif } #if WASM_ENABLE_FUZZ_TEST != 0 if (size >= WASM_MEM_ALLOC_MAX_SIZE) { LOG_WARNING("warning: wasm_runtime_malloc with too large size\n"); return NULL; } #endif return wasm_runtime_malloc_internal(size); } void * wasm_runtime_realloc(void *ptr, unsigned int size) { return wasm_runtime_realloc_internal(ptr, size); } void wasm_runtime_free(void *ptr) { wasm_runtime_free_internal(ptr); } bool wasm_runtime_get_mem_alloc_info(mem_alloc_info_t *mem_alloc_info) { if (memory_mode == MEMORY_MODE_POOL) { return mem_allocator_get_alloc_info(pool_allocator, mem_alloc_info); } return false; } bool wasm_runtime_validate_app_addr(WASMModuleInstanceCommon *module_inst_comm, uint64 app_offset, uint64 size) { WASMModuleInstance *module_inst = (WASMModuleInstance *)module_inst_comm; WASMMemoryInstance *memory_inst; uint64 max_linear_memory_size = MAX_LINEAR_MEMORY_SIZE; bh_assert(module_inst_comm->module_type == Wasm_Module_Bytecode || module_inst_comm->module_type == Wasm_Module_AoT); if (!is_bounds_checks_enabled(module_inst_comm)) { return true; } memory_inst = wasm_get_default_memory(module_inst); if (!memory_inst) { goto fail; } #if WASM_ENABLE_SHARED_HEAP != 0 if (is_app_addr_in_shared_heap(module_inst_comm, memory_inst->is_memory64, app_offset, size)) { return true; } #endif #if WASM_ENABLE_MEMORY64 != 0 if (memory_inst->is_memory64) max_linear_memory_size = MAX_LINEAR_MEM64_MEMORY_SIZE; #endif /* boundary overflow check */ if (size > max_linear_memory_size || app_offset > max_linear_memory_size - size) { goto fail; } SHARED_MEMORY_LOCK(memory_inst); if (app_offset + size <= memory_inst->memory_data_size) { SHARED_MEMORY_UNLOCK(memory_inst); return true; } SHARED_MEMORY_UNLOCK(memory_inst); fail: wasm_set_exception(module_inst, "out of bounds memory access"); return false; } bool wasm_runtime_validate_app_str_addr(WASMModuleInstanceCommon *module_inst_comm, uint64 app_str_offset) { WASMModuleInstance *module_inst = (WASMModuleInstance *)module_inst_comm; WASMMemoryInstance *memory_inst; uint64 app_end_offset, max_linear_memory_size = MAX_LINEAR_MEMORY_SIZE; char *str, *str_end; bh_assert(module_inst_comm->module_type == Wasm_Module_Bytecode || module_inst_comm->module_type == Wasm_Module_AoT); if (!is_bounds_checks_enabled(module_inst_comm)) { return true; } memory_inst = wasm_get_default_memory(module_inst); if (!memory_inst) { goto fail; } #if WASM_ENABLE_SHARED_HEAP != 0 if (is_app_addr_in_shared_heap(module_inst_comm, memory_inst->is_memory64, app_str_offset, 1)) { WASMSharedHeap *shared_heap = get_shared_heap(module_inst_comm); str = (char *)shared_heap->base_addr + (memory_inst->is_memory64 ? (app_str_offset - shared_heap->start_off_mem64) : (app_str_offset - shared_heap->start_off_mem32)); str_end = (char *)shared_heap->base_addr + shared_heap->size; } else #endif { if (!wasm_runtime_get_app_addr_range(module_inst_comm, app_str_offset, NULL, &app_end_offset)) goto fail; #if WASM_ENABLE_MEMORY64 != 0 if (memory_inst->is_memory64) max_linear_memory_size = MAX_LINEAR_MEM64_MEMORY_SIZE; #endif /* boundary overflow check, max start offset can be size - 1, while end offset can be size */ if (app_str_offset >= max_linear_memory_size || app_end_offset > max_linear_memory_size) goto fail; str = wasm_runtime_addr_app_to_native(module_inst_comm, app_str_offset); str_end = str + (app_end_offset - app_str_offset); } while (str < str_end && *str != '\0') str++; if (str == str_end) goto fail; return true; fail: wasm_set_exception(module_inst, "out of bounds memory access"); return false; } bool wasm_runtime_validate_native_addr(WASMModuleInstanceCommon *module_inst_comm, void *native_ptr, uint64 size) { WASMModuleInstance *module_inst = (WASMModuleInstance *)module_inst_comm; WASMMemoryInstance *memory_inst; uint8 *addr = (uint8 *)native_ptr; uint64 max_linear_memory_size = MAX_LINEAR_MEMORY_SIZE; bh_assert(module_inst_comm->module_type == Wasm_Module_Bytecode || module_inst_comm->module_type == Wasm_Module_AoT); if (!is_bounds_checks_enabled(module_inst_comm)) { return true; } memory_inst = wasm_get_default_memory(module_inst); if (!memory_inst) { goto fail; } #if WASM_ENABLE_MEMORY64 != 0 if (memory_inst->is_memory64) max_linear_memory_size = MAX_LINEAR_MEM64_MEMORY_SIZE; #endif /* boundary overflow check */ if (size > max_linear_memory_size || (uintptr_t)addr > UINTPTR_MAX - size) { goto fail; } #if WASM_ENABLE_SHARED_HEAP != 0 if (is_native_addr_in_shared_heap(module_inst_comm, native_ptr, size)) { return true; } #endif SHARED_MEMORY_LOCK(memory_inst); if (memory_inst->memory_data <= addr && addr + size <= memory_inst->memory_data_end) { SHARED_MEMORY_UNLOCK(memory_inst); return true; } SHARED_MEMORY_UNLOCK(memory_inst); fail: wasm_set_exception(module_inst, "out of bounds memory access"); return false; } void * wasm_runtime_addr_app_to_native(WASMModuleInstanceCommon *module_inst_comm, uint64 app_offset) { WASMModuleInstance *module_inst = (WASMModuleInstance *)module_inst_comm; WASMMemoryInstance *memory_inst; uint8 *addr; bool bounds_checks; bh_assert(module_inst_comm->module_type == Wasm_Module_Bytecode || module_inst_comm->module_type == Wasm_Module_AoT); bounds_checks = is_bounds_checks_enabled(module_inst_comm); memory_inst = wasm_get_default_memory(module_inst); if (!memory_inst) { return NULL; } #if WASM_ENABLE_SHARED_HEAP != 0 if (is_app_addr_in_shared_heap(module_inst_comm, memory_inst->is_memory64, app_offset, 1)) { WASMSharedHeap *shared_heap = get_shared_heap(module_inst_comm); uint64 shared_heap_start = 0; if (memory_inst && !memory_inst->is_memory64) { shared_heap_start = shared_heap->start_off_mem32; } else if (memory_inst && memory_inst->is_memory64) { shared_heap_start = shared_heap->start_off_mem64; } return shared_heap->base_addr + app_offset - shared_heap_start; } #endif SHARED_MEMORY_LOCK(memory_inst); addr = memory_inst->memory_data + (uintptr_t)app_offset; if (bounds_checks) { if (memory_inst->memory_data <= addr && addr < memory_inst->memory_data_end) { SHARED_MEMORY_UNLOCK(memory_inst); return addr; } SHARED_MEMORY_UNLOCK(memory_inst); return NULL; } /* If bounds checks is disabled, return the address directly */ SHARED_MEMORY_UNLOCK(memory_inst); return addr; } uint64 wasm_runtime_addr_native_to_app(WASMModuleInstanceCommon *module_inst_comm, void *native_ptr) { WASMModuleInstance *module_inst = (WASMModuleInstance *)module_inst_comm; WASMMemoryInstance *memory_inst; uint8 *addr = (uint8 *)native_ptr; bool bounds_checks; uint64 ret; bh_assert(module_inst_comm->module_type == Wasm_Module_Bytecode || module_inst_comm->module_type == Wasm_Module_AoT); bounds_checks = is_bounds_checks_enabled(module_inst_comm); #if WASM_ENABLE_SHARED_HEAP != 0 /* If shared heap is enabled, bounds check is always needed */ bounds_checks = true; #endif memory_inst = wasm_get_default_memory(module_inst); if (!memory_inst) { return 0; } #if WASM_ENABLE_SHARED_HEAP != 0 if (is_native_addr_in_shared_heap(module_inst_comm, addr, 1)) { WASMSharedHeap *shared_heap = get_shared_heap(module_inst_comm); uint64 shared_heap_start = 0; if (memory_inst && !memory_inst->is_memory64) { shared_heap_start = shared_heap->start_off_mem32; } else if (memory_inst && memory_inst->is_memory64) { shared_heap_start = shared_heap->start_off_mem64; } return shared_heap_start + (addr - shared_heap->base_addr); } #endif SHARED_MEMORY_LOCK(memory_inst); if (bounds_checks) { if (memory_inst->memory_data <= addr && addr < memory_inst->memory_data_end) { ret = (uint64)(addr - memory_inst->memory_data); SHARED_MEMORY_UNLOCK(memory_inst); return ret; } } /* If bounds checks is disabled, return the offset directly */ else if (addr != NULL) { ret = (uint64)(addr - memory_inst->memory_data); SHARED_MEMORY_UNLOCK(memory_inst); return ret; } SHARED_MEMORY_UNLOCK(memory_inst); return 0; } bool wasm_runtime_get_app_addr_range(WASMModuleInstanceCommon *module_inst_comm, uint64 app_offset, uint64 *p_app_start_offset, uint64 *p_app_end_offset) { WASMModuleInstance *module_inst = (WASMModuleInstance *)module_inst_comm; WASMMemoryInstance *memory_inst; uint64 memory_data_size; bh_assert(module_inst_comm->module_type == Wasm_Module_Bytecode || module_inst_comm->module_type == Wasm_Module_AoT); memory_inst = wasm_get_default_memory(module_inst); if (!memory_inst) { return false; } SHARED_MEMORY_LOCK(memory_inst); memory_data_size = memory_inst->memory_data_size; if (app_offset < memory_data_size) { if (p_app_start_offset) *p_app_start_offset = 0; if (p_app_end_offset) *p_app_end_offset = memory_data_size; SHARED_MEMORY_UNLOCK(memory_inst); return true; } SHARED_MEMORY_UNLOCK(memory_inst); return false; } bool wasm_runtime_get_native_addr_range(WASMModuleInstanceCommon *module_inst_comm, uint8 *native_ptr, uint8 **p_native_start_addr, uint8 **p_native_end_addr) { WASMModuleInstance *module_inst = (WASMModuleInstance *)module_inst_comm; WASMMemoryInstance *memory_inst; uint8 *addr = (uint8 *)native_ptr; bh_assert(module_inst_comm->module_type == Wasm_Module_Bytecode || module_inst_comm->module_type == Wasm_Module_AoT); memory_inst = wasm_get_default_memory(module_inst); if (!memory_inst) { return false; } SHARED_MEMORY_LOCK(memory_inst); if (memory_inst->memory_data <= addr && addr < memory_inst->memory_data_end) { if (p_native_start_addr) *p_native_start_addr = memory_inst->memory_data; if (p_native_end_addr) *p_native_end_addr = memory_inst->memory_data_end; SHARED_MEMORY_UNLOCK(memory_inst); return true; } SHARED_MEMORY_UNLOCK(memory_inst); return false; } bool wasm_check_app_addr_and_convert(WASMModuleInstance *module_inst, bool is_str, uint64 app_buf_addr, uint64 app_buf_size, void **p_native_addr) { WASMMemoryInstance *memory_inst = wasm_get_default_memory(module_inst); uint8 *native_addr; bool bounds_checks; #if WASM_ENABLE_SHARED_HEAP != 0 WASMSharedHeap *shared_heap; bool is_in_shared_heap = false; #endif bh_assert(app_buf_addr <= UINTPTR_MAX && app_buf_size <= UINTPTR_MAX); if (!memory_inst) { wasm_set_exception(module_inst, "out of bounds memory access"); return false; } #if WASM_ENABLE_SHARED_HEAP != 0 if (is_app_addr_in_shared_heap((WASMModuleInstanceCommon *)module_inst, memory_inst->is_memory64, app_buf_addr, app_buf_size)) { shared_heap = get_shared_heap((WASMModuleInstanceCommon *)module_inst); native_addr = shared_heap->base_addr + (memory_inst->is_memory64 ? (app_buf_addr - shared_heap->start_off_mem64) : (app_buf_addr - shared_heap->start_off_mem32)); is_in_shared_heap = true; } else #endif { native_addr = memory_inst->memory_data + (uintptr_t)app_buf_addr; } bounds_checks = is_bounds_checks_enabled((WASMModuleInstanceCommon *)module_inst); if (!bounds_checks) { if (app_buf_addr == 0) { native_addr = NULL; } goto success; } #if WASM_ENABLE_SHARED_HEAP != 0 if (is_in_shared_heap) { const char *str, *str_end; /* The whole string must be in the linear memory */ str = (const char *)native_addr; str_end = (const char *)shared_heap->base_addr + shared_heap->size; while (str < str_end && *str != '\0') str++; if (str == str_end) { wasm_set_exception(module_inst, "out of bounds memory access"); return false; } else goto success; } #endif /* No need to check the app_offset and buf_size if memory access boundary check with hardware trap is enabled */ #ifndef OS_ENABLE_HW_BOUND_CHECK SHARED_MEMORY_LOCK(memory_inst); if (app_buf_addr >= memory_inst->memory_data_size) { goto fail; } if (!is_str) { if (app_buf_size > memory_inst->memory_data_size - app_buf_addr) { goto fail; } } else { const char *str, *str_end; /* The whole string must be in the linear memory */ str = (const char *)native_addr; str_end = (const char *)memory_inst->memory_data_end; while (str < str_end && *str != '\0') str++; if (str == str_end) goto fail; } SHARED_MEMORY_UNLOCK(memory_inst); #endif success: *p_native_addr = (void *)native_addr; return true; #ifndef OS_ENABLE_HW_BOUND_CHECK fail: SHARED_MEMORY_UNLOCK(memory_inst); wasm_set_exception(module_inst, "out of bounds memory access"); return false; #endif } WASMMemoryInstance * wasm_get_default_memory(WASMModuleInstance *module_inst) { if (module_inst->memories) return module_inst->memories[0]; else return NULL; } WASMMemoryInstance * wasm_get_memory_with_idx(WASMModuleInstance *module_inst, uint32 index) { if ((index >= module_inst->memory_count) || !module_inst->memories) return NULL; return module_inst->memories[index]; } void wasm_runtime_set_mem_bound_check_bytes(WASMMemoryInstance *memory, uint64 memory_data_size) { #if WASM_ENABLE_FAST_JIT != 0 || WASM_ENABLE_JIT != 0 || WASM_ENABLE_AOT != 0 #if UINTPTR_MAX == UINT64_MAX memory->mem_bound_check_1byte.u64 = memory_data_size - 1; memory->mem_bound_check_2bytes.u64 = memory_data_size - 2; memory->mem_bound_check_4bytes.u64 = memory_data_size - 4; memory->mem_bound_check_8bytes.u64 = memory_data_size - 8; memory->mem_bound_check_16bytes.u64 = memory_data_size - 16; #else memory->mem_bound_check_1byte.u32[0] = (uint32)memory_data_size - 1; memory->mem_bound_check_2bytes.u32[0] = (uint32)memory_data_size - 2; memory->mem_bound_check_4bytes.u32[0] = (uint32)memory_data_size - 4; memory->mem_bound_check_8bytes.u32[0] = (uint32)memory_data_size - 8; memory->mem_bound_check_16bytes.u32[0] = (uint32)memory_data_size - 16; #endif #endif } static void wasm_munmap_linear_memory(void *mapped_mem, uint64 commit_size, uint64 map_size) { #ifdef BH_PLATFORM_WINDOWS os_mem_decommit(mapped_mem, commit_size); #else (void)commit_size; #endif os_munmap(mapped_mem, map_size); } static void * wasm_mremap_linear_memory(void *mapped_mem, uint64 old_size, uint64 new_size, uint64 commit_size) { void *new_mem; bh_assert(new_size > 0); bh_assert(new_size > old_size); if (mapped_mem) { new_mem = os_mremap(mapped_mem, old_size, new_size); } else { new_mem = os_mmap(NULL, new_size, MMAP_PROT_NONE, MMAP_MAP_NONE, os_get_invalid_handle()); } if (!new_mem) { return NULL; } #ifdef BH_PLATFORM_WINDOWS if (commit_size > 0 && !os_mem_commit(new_mem, commit_size, MMAP_PROT_READ | MMAP_PROT_WRITE)) { os_munmap(new_mem, new_size); return NULL; } #endif if (os_mprotect(new_mem, commit_size, MMAP_PROT_READ | MMAP_PROT_WRITE) != 0) { wasm_munmap_linear_memory(new_mem, new_size, new_size); return NULL; } return new_mem; } static void * wasm_mmap_linear_memory(uint64 map_size, uint64 commit_size) { return wasm_mremap_linear_memory(NULL, 0, map_size, commit_size); } static bool wasm_enlarge_memory_internal(WASMModuleInstanceCommon *module, WASMMemoryInstance *memory, uint32 inc_page_count) { #if WASM_ENABLE_SHARED_HEAP != 0 WASMSharedHeap *shared_heap; #endif uint8 *memory_data_old, *memory_data_new, *heap_data_old; uint32 num_bytes_per_page, heap_size; uint32 cur_page_count, max_page_count, total_page_count; uint64 total_size_old = 0, total_size_new; bool ret = true, full_size_mmaped; enlarge_memory_error_reason_t failure_reason = INTERNAL_ERROR; if (!memory) { ret = false; goto return_func; } #ifdef OS_ENABLE_HW_BOUND_CHECK full_size_mmaped = true; #elif WASM_ENABLE_SHARED_MEMORY != 0 full_size_mmaped = shared_memory_is_shared(memory); #else full_size_mmaped = false; #endif memory_data_old = memory->memory_data; total_size_old = memory->memory_data_size; heap_data_old = memory->heap_data; heap_size = (uint32)(memory->heap_data_end - memory->heap_data); num_bytes_per_page = memory->num_bytes_per_page; cur_page_count = memory->cur_page_count; max_page_count = memory->max_page_count; total_page_count = inc_page_count + cur_page_count; total_size_new = num_bytes_per_page * (uint64)total_page_count; if (inc_page_count <= 0) /* No need to enlarge memory */ return true; if (total_page_count < cur_page_count) { /* integer overflow */ ret = false; goto return_func; } if (total_page_count > max_page_count) { failure_reason = MAX_SIZE_REACHED; ret = false; goto return_func; } #if WASM_ENABLE_SHARED_HEAP != 0 shared_heap = get_shared_heap(module); if (shared_heap) { if (memory->is_memory64 && total_size_new > shared_heap->start_off_mem64) { LOG_WARNING("Linear memory address is overlapped with shared heap"); ret = false; goto return_func; } else if (!memory->is_memory64 && total_size_new > shared_heap->start_off_mem32) { LOG_WARNING("Linear memory address is overlapped with shared heap"); ret = false; goto return_func; } } #endif bh_assert(total_size_new <= GET_MAX_LINEAR_MEMORY_SIZE(memory->is_memory64)); #if WASM_MEM_ALLOC_WITH_USAGE != 0 if (!(memory_data_new = realloc_func(Alloc_For_LinearMemory, full_size_mmaped, #if WASM_MEM_ALLOC_WITH_USER_DATA != 0 NULL, #endif memory_data_old, total_size_new))) { ret = false; goto return_func; } if (heap_size > 0) { if (mem_allocator_migrate(memory->heap_handle, (char *)heap_data_old + (memory_data_new - memory_data_old), heap_size) != 0) { ret = false; } } memory->heap_data = memory_data_new + (heap_data_old - memory_data_old); memory->heap_data_end = memory->heap_data + heap_size; memory->memory_data = memory_data_new; #else if (full_size_mmaped) { #ifdef BH_PLATFORM_WINDOWS if (!os_mem_commit(memory->memory_data_end, (mem_offset_t)(total_size_new - total_size_old), MMAP_PROT_READ | MMAP_PROT_WRITE)) { ret = false; goto return_func; } #endif if (os_mprotect(memory->memory_data_end, (mem_offset_t)(total_size_new - total_size_old), MMAP_PROT_READ | MMAP_PROT_WRITE) != 0) { #ifdef BH_PLATFORM_WINDOWS os_mem_decommit(memory->memory_data_end, (mem_offset_t)(total_size_new - total_size_old)); #endif ret = false; goto return_func; } } else { if (heap_size > 0) { if (mem_allocator_is_heap_corrupted(memory->heap_handle)) { wasm_runtime_show_app_heap_corrupted_prompt(); ret = false; goto return_func; } } if (!(memory_data_new = wasm_mremap_linear_memory(memory_data_old, total_size_old, total_size_new, total_size_new))) { ret = false; goto return_func; } if (heap_size > 0) { if (mem_allocator_migrate(memory->heap_handle, (char *)heap_data_old + (memory_data_new - memory_data_old), heap_size) != 0) { /* Don't return here as memory->memory_data is obsolete and must be updated to be correctly used later. */ ret = false; } } memory->heap_data = memory_data_new + (heap_data_old - memory_data_old); memory->heap_data_end = memory->heap_data + heap_size; memory->memory_data = memory_data_new; #if defined(os_writegsbase) /* write base addr of linear memory to GS segment register */ os_writegsbase(memory_data_new); #endif } #endif /* end of WASM_MEM_ALLOC_WITH_USAGE */ /* * AOT compiler assumes at least 8 byte alignment. * see aot_check_memory_overflow. */ bh_assert(((uintptr_t)memory->memory_data & 0x7) == 0); memory->num_bytes_per_page = num_bytes_per_page; memory->cur_page_count = total_page_count; memory->max_page_count = max_page_count; SET_LINEAR_MEMORY_SIZE(memory, total_size_new); memory->memory_data_end = memory->memory_data + total_size_new; wasm_runtime_set_mem_bound_check_bytes(memory, total_size_new); return_func: if (!ret && module && enlarge_memory_error_cb) { WASMExecEnv *exec_env = NULL; #if WASM_ENABLE_INTERP != 0 if (module->module_type == Wasm_Module_Bytecode) exec_env = ((WASMModuleInstance *)module)->cur_exec_env; #endif #if WASM_ENABLE_AOT != 0 if (module->module_type == Wasm_Module_AoT) exec_env = ((AOTModuleInstance *)module)->cur_exec_env; #endif enlarge_memory_error_cb(inc_page_count, total_size_old, 0, failure_reason, module, exec_env, enlarge_memory_error_user_data); } return ret; } bool wasm_runtime_enlarge_memory(WASMModuleInstanceCommon *module_inst, uint64 inc_page_count) { if (inc_page_count > UINT32_MAX) { return false; } #if WASM_ENABLE_AOT != 0 if (module_inst->module_type == Wasm_Module_AoT) { return aot_enlarge_memory((AOTModuleInstance *)module_inst, (uint32)inc_page_count); } #endif #if WASM_ENABLE_INTERP != 0 if (module_inst->module_type == Wasm_Module_Bytecode) { return wasm_enlarge_memory((WASMModuleInstance *)module_inst, (uint32)inc_page_count); } #endif return false; } void wasm_runtime_set_enlarge_mem_error_callback( const enlarge_memory_error_callback_t callback, void *user_data) { enlarge_memory_error_cb = callback; enlarge_memory_error_user_data = user_data; } bool wasm_enlarge_memory(WASMModuleInstance *module, uint32 inc_page_count) { bool ret = false; if (module->memory_count > 0) { #if WASM_ENABLE_SHARED_MEMORY != 0 shared_memory_lock(module->memories[0]); #endif ret = wasm_enlarge_memory_internal((WASMModuleInstanceCommon *)module, module->memories[0], inc_page_count); #if WASM_ENABLE_SHARED_MEMORY != 0 shared_memory_unlock(module->memories[0]); #endif } return ret; } bool wasm_enlarge_memory_with_idx(WASMModuleInstance *module, uint32 inc_page_count, uint32 memidx) { bool ret = false; if (memidx < module->memory_count) { #if WASM_ENABLE_SHARED_MEMORY != 0 shared_memory_lock(module->memories[memidx]); #endif ret = wasm_enlarge_memory_internal((WASMModuleInstanceCommon *)module, module->memories[memidx], inc_page_count); #if WASM_ENABLE_SHARED_MEMORY != 0 shared_memory_unlock(module->memories[memidx]); #endif } return ret; } WASMMemoryInstance * wasm_runtime_lookup_memory(WASMModuleInstanceCommon *module_inst, const char *name) { #if WASM_ENABLE_INTERP != 0 if (module_inst->module_type == Wasm_Module_Bytecode) return wasm_lookup_memory((WASMModuleInstance *)module_inst, name); #endif #if WASM_ENABLE_AOT != 0 if (module_inst->module_type == Wasm_Module_AoT) return aot_lookup_memory((WASMModuleInstance *)module_inst, name); #endif return NULL; } WASMMemoryInstance * wasm_runtime_get_default_memory(WASMModuleInstanceCommon *module_inst) { #if WASM_ENABLE_INTERP != 0 if (module_inst->module_type == Wasm_Module_Bytecode) return wasm_get_default_memory((WASMModuleInstance *)module_inst); #endif #if WASM_ENABLE_AOT != 0 if (module_inst->module_type == Wasm_Module_AoT) return aot_get_default_memory((AOTModuleInstance *)module_inst); #endif return NULL; } WASMMemoryInstance * wasm_runtime_get_memory(WASMModuleInstanceCommon *module_inst, uint32 index) { #if WASM_ENABLE_INTERP != 0 if (module_inst->module_type == Wasm_Module_Bytecode) return wasm_get_memory_with_idx((WASMModuleInstance *)module_inst, index); #endif #if WASM_ENABLE_AOT != 0 if (module_inst->module_type == Wasm_Module_AoT) return aot_get_memory_with_idx((AOTModuleInstance *)module_inst, index); #endif return NULL; } uint64 wasm_memory_get_cur_page_count(WASMMemoryInstance *memory) { return memory->cur_page_count; } uint64 wasm_memory_get_max_page_count(WASMMemoryInstance *memory) { return memory->max_page_count; } uint64 wasm_memory_get_bytes_per_page(WASMMemoryInstance *memory) { return memory->num_bytes_per_page; } bool wasm_memory_get_shared(WASMMemoryInstance *memory) { return memory->is_shared_memory; } void * wasm_memory_get_base_address(WASMMemoryInstance *memory) { return memory->memory_data; } bool wasm_memory_enlarge(WASMMemoryInstance *memory, uint64 inc_page_count) { bool ret = false; if (memory) { #if WASM_ENABLE_SHARED_MEMORY != 0 shared_memory_lock(memory); #endif ret = wasm_enlarge_memory_internal(NULL, memory, (uint32)inc_page_count); #if WASM_ENABLE_SHARED_MEMORY != 0 shared_memory_unlock(memory); #endif } return ret; } void wasm_deallocate_linear_memory(WASMMemoryInstance *memory_inst) { uint64 map_size; bh_assert(memory_inst); bh_assert(memory_inst->memory_data); #ifndef OS_ENABLE_HW_BOUND_CHECK #if WASM_ENABLE_SHARED_MEMORY != 0 if (shared_memory_is_shared(memory_inst)) { map_size = (uint64)memory_inst->num_bytes_per_page * memory_inst->max_page_count; } else #endif { map_size = (uint64)memory_inst->num_bytes_per_page * memory_inst->cur_page_count; } #else map_size = 8 * (uint64)BH_GB; #endif #if WASM_MEM_ALLOC_WITH_USAGE != 0 (void)map_size; free_func(Alloc_For_LinearMemory, #if WASM_MEM_ALLOC_WITH_USER_DATA != 0 NULL, #endif memory_inst->memory_data); #else wasm_munmap_linear_memory(memory_inst->memory_data, memory_inst->memory_data_size, map_size); #endif memory_inst->memory_data = NULL; } int wasm_allocate_linear_memory(uint8 **data, bool is_shared_memory, bool is_memory64, uint64 num_bytes_per_page, uint64 init_page_count, uint64 max_page_count, uint64 *memory_data_size) { uint64 map_size, page_size; bh_assert(data); bh_assert(memory_data_size); #ifndef OS_ENABLE_HW_BOUND_CHECK #if WASM_ENABLE_SHARED_MEMORY != 0 if (is_shared_memory) { /* Allocate maximum memory size when memory is shared */ map_size = max_page_count * num_bytes_per_page; } else #endif { map_size = init_page_count * num_bytes_per_page; } #else /* else of OS_ENABLE_HW_BOUND_CHECK */ /* Totally 8G is mapped, the opcode load/store address range is 0 to 8G: * ea = i + memarg.offset * both i and memarg.offset are u32 in range 0 to 4G * so the range of ea is 0 to 8G */ map_size = 8 * (uint64)BH_GB; #endif /* end of OS_ENABLE_HW_BOUND_CHECK */ page_size = os_getpagesize(); *memory_data_size = init_page_count * num_bytes_per_page; bh_assert(*memory_data_size <= GET_MAX_LINEAR_MEMORY_SIZE(is_memory64)); *memory_data_size = align_as_and_cast(*memory_data_size, page_size); if (map_size > 0) { #if WASM_MEM_ALLOC_WITH_USAGE != 0 (void)wasm_mmap_linear_memory; if (!(*data = malloc_func(Alloc_For_LinearMemory, #if WASM_MEM_ALLOC_WITH_USER_DATA != 0 NULL, #endif *memory_data_size))) { return BHT_ERROR; } #else if (!(*data = wasm_mmap_linear_memory(map_size, *memory_data_size))) { return BHT_ERROR; } #endif } /* * AOT compiler assumes at least 8 byte alignment. * see aot_check_memory_overflow. */ bh_assert(((uintptr_t)*data & 0x7) == 0); return BHT_OK; }