/* * Copyright (C) 2019 Intel Corporation. All rights reserved. * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception */ #include "wasm_runtime.h" #include "wasm_loader.h" #include "wasm_interp.h" #include "bh_common.h" #include "bh_log.h" #include "mem_alloc.h" #include "../common/wasm_runtime_common.h" #if WASM_ENABLE_SHARED_MEMORY != 0 #include "../common/wasm_shared_memory.h" #endif static void set_error_buf(char *error_buf, uint32 error_buf_size, const char *string) { if (error_buf != NULL) { snprintf(error_buf, error_buf_size, "WASM module instantiate failed: %s", string); } } WASMModule* wasm_load(const uint8 *buf, uint32 size, char *error_buf, uint32 error_buf_size) { return wasm_loader_load(buf, size, error_buf, error_buf_size); } WASMModule* wasm_load_from_sections(WASMSection *section_list, char *error_buf, uint32_t error_buf_size) { return wasm_loader_load_from_sections(section_list, error_buf, error_buf_size); } void wasm_unload(WASMModule *module) { wasm_loader_unload(module); } static void * runtime_malloc(uint64 size, char *error_buf, uint32 error_buf_size) { void *mem; if (size >= UINT32_MAX || !(mem = wasm_runtime_malloc((uint32)size))) { set_error_buf(error_buf, error_buf_size, "allocate memory failed"); return NULL; } memset(mem, 0, (uint32)size); return mem; } #if WASM_ENABLE_MULTI_MODULE != 0 static WASMModuleInstance * get_sub_module_inst(const WASMModuleInstance *parent_module_inst, const WASMModule *sub_module) { bh_list *sub_module_inst_list = parent_module_inst->sub_module_inst_list; WASMSubModInstNode *node = bh_list_first_elem(sub_module_inst_list); while (node && sub_module != node->module_inst->module) { node = bh_list_elem_next(node); } return node ? node->module_inst : NULL; } #endif /** * Destroy memory instances. */ static void memories_deinstantiate(WASMModuleInstance *module_inst, WASMMemoryInstance **memories, uint32 count) { uint32 i; if (memories) { for (i = 0; i < count; i++) { if (memories[i]) { #if WASM_ENABLE_MULTI_MODULE != 0 if (memories[i]->owner != module_inst) continue; #endif #if WASM_ENABLE_SHARED_MEMORY != 0 if (memories[i]->is_shared) { int32 ref_count = shared_memory_dec_reference( (WASMModuleCommon *)module_inst->module); bh_assert(ref_count >= 0); /* if the reference count is not zero, don't free the memory */ if (ref_count > 0) continue; } os_mutex_destroy(&memories[i]->mem_lock); #endif if (memories[i]->heap_handle) { mem_allocator_destroy(memories[i]->heap_handle); wasm_runtime_free(memories[i]->heap_handle); memories[i]->heap_handle = NULL; } if (memories[i]->memory_data) wasm_runtime_free(memories[i]->memory_data); wasm_runtime_free(memories[i]); } } wasm_runtime_free(memories); } (void)module_inst; } static WASMMemoryInstance* memory_instantiate(WASMModuleInstance *module_inst, uint32 num_bytes_per_page, uint32 init_page_count, uint32 max_page_count, uint32 heap_size, uint32 flags, char *error_buf, uint32 error_buf_size) { WASMModule *module = module_inst->module; WASMMemoryInstance *memory; uint64 memory_data_size; uint32 heap_offset = num_bytes_per_page * init_page_count; uint32 inc_page_count, aux_heap_base, global_idx; uint32 bytes_of_last_page, bytes_to_page_end; uint8 *global_addr; #if WASM_ENABLE_SHARED_MEMORY != 0 bool is_shared_memory = flags & 0x02 ? true : false; /* shared memory */ if (is_shared_memory) { WASMSharedMemNode *node = wasm_module_get_shared_memory( (WASMModuleCommon *)module_inst->module); /* If the memory of this module has been instantiated, return the memory instance directly */ if (node) { uint32 ref_count; ref_count = shared_memory_inc_reference( (WASMModuleCommon *)module_inst->module); bh_assert(ref_count > 0); memory = (WASMMemoryInstance *)shared_memory_get_memory_inst(node); bh_assert(memory); (void)ref_count; return memory; } } #endif /* end of WASM_ENABLE_SHARED_MEMORY */ if (heap_size > 0 && module_inst->module->malloc_function != (uint32)-1 && module_inst->module->free_function != (uint32)-1) { /* Disable app heap, use malloc/free function exported by wasm app to allocate/free memory instead */ heap_size = 0; } if (init_page_count == max_page_count && init_page_count == 1) { /* If only one page and at most one page, we just append the app heap to the end of linear memory, enlarge the num_bytes_per_page, and don't change the page count*/ heap_offset = num_bytes_per_page; num_bytes_per_page += heap_size; if (num_bytes_per_page < heap_size) { set_error_buf(error_buf, error_buf_size, "memory size must be at most 65536 pages (4GiB)"); return NULL; } } else if (heap_size > 0) { if (module->aux_heap_base_global_index != (uint32)-1 && module->aux_heap_base < num_bytes_per_page * init_page_count) { /* Insert app heap before __heap_base */ aux_heap_base = module->aux_heap_base; bytes_of_last_page = aux_heap_base % num_bytes_per_page; if (bytes_of_last_page == 0) bytes_of_last_page = num_bytes_per_page; bytes_to_page_end = num_bytes_per_page - bytes_of_last_page; inc_page_count = (heap_size - bytes_to_page_end + num_bytes_per_page - 1) / num_bytes_per_page; heap_offset = aux_heap_base; aux_heap_base += heap_size; bytes_of_last_page = aux_heap_base % num_bytes_per_page; if (bytes_of_last_page == 0) bytes_of_last_page = num_bytes_per_page; bytes_to_page_end = num_bytes_per_page - bytes_of_last_page; if (bytes_to_page_end < 1 * BH_KB) { aux_heap_base += 1 * BH_KB; inc_page_count++; } /* Adjust __heap_base global value */ global_idx = module->aux_heap_base_global_index; global_addr = module_inst->global_data + module_inst->globals[global_idx].data_offset; *(uint32 *)global_addr = aux_heap_base; LOG_VERBOSE("Reset __heap_base global to %u", aux_heap_base); } else { /* Insert app heap before new page */ inc_page_count = (heap_size + num_bytes_per_page - 1) / num_bytes_per_page; heap_offset = num_bytes_per_page * init_page_count; heap_size = num_bytes_per_page * inc_page_count; if (heap_size > 0) heap_size -= 1 * BH_KB; } init_page_count += inc_page_count; max_page_count += inc_page_count; if (init_page_count > 65536) { set_error_buf(error_buf, error_buf_size, "memory size must be at most 65536 pages (4GiB)"); return NULL; } if (max_page_count > 65536) max_page_count = 65536; } LOG_VERBOSE("Memory instantiate:"); LOG_VERBOSE(" page bytes: %u, init pages: %u, max pages: %u", num_bytes_per_page, init_page_count, max_page_count); LOG_VERBOSE(" heap offset: %u, heap size: %d\n", heap_offset, heap_size); memory_data_size = (uint64)num_bytes_per_page * init_page_count; #if WASM_ENABLE_SHARED_MEMORY != 0 if (is_shared_memory) { /* Allocate max page for shared memory */ memory_data_size = (uint64)num_bytes_per_page * max_page_count; } #endif /* Allocate memory space, addr data and global data */ if (!(memory = runtime_malloc((uint64)sizeof(WASMMemoryInstance), error_buf, error_buf_size))) { return NULL; } if (memory_data_size > 0 && !(memory->memory_data = runtime_malloc(memory_data_size, error_buf, error_buf_size))) { goto fail1; } memory->module_type = Wasm_Module_Bytecode; memory->num_bytes_per_page = num_bytes_per_page; memory->cur_page_count = init_page_count; memory->max_page_count = max_page_count; memory->heap_data = memory->memory_data + heap_offset; memory->heap_data_end = memory->heap_data + heap_size; memory->memory_data_end = memory->memory_data + (uint32)memory_data_size; /* Initialize heap */ if (heap_size > 0) { uint32 heap_struct_size = mem_allocator_get_heap_struct_size(); if (!(memory->heap_handle = runtime_malloc((uint64)heap_struct_size, error_buf, error_buf_size))) { goto fail2; } if (!mem_allocator_create_with_struct_and_pool (memory->heap_handle, heap_struct_size, memory->heap_data, heap_size)) { set_error_buf(error_buf, error_buf_size, "init app heap failed"); goto fail3; } } #if WASM_ENABLE_SHARED_MEMORY != 0 if (0 != os_mutex_init(&memory->mem_lock)) { set_error_buf(error_buf, error_buf_size, "init mutex failed"); goto fail4; } if (is_shared_memory) { memory->is_shared = true; if (!shared_memory_set_memory_inst( (WASMModuleCommon *)module_inst->module, (WASMMemoryInstanceCommon *)memory)) { set_error_buf(error_buf, error_buf_size, "allocate memory failed"); goto fail5; } } #endif LOG_VERBOSE("Memory instantiate success."); return memory; #if WASM_ENABLE_SHARED_MEMORY != 0 fail5: os_mutex_destroy(&memory->mem_lock); fail4: if (heap_size > 0) mem_allocator_destroy(memory->heap_handle); #endif fail3: if (heap_size > 0) wasm_runtime_free(memory->heap_handle); fail2: if (memory->memory_data) wasm_runtime_free(memory->memory_data); fail1: wasm_runtime_free(memory); return NULL; } /** * Instantiate memories in a module. */ static WASMMemoryInstance ** memories_instantiate(const WASMModule *module, WASMModuleInstance *module_inst, uint32 heap_size, char *error_buf, uint32 error_buf_size) { WASMImport *import; uint32 mem_index = 0, i, memory_count = module->import_memory_count + module->memory_count; uint64 total_size; WASMMemoryInstance **memories, *memory; total_size = sizeof(WASMMemoryInstance*) * (uint64)memory_count; if (!(memories = runtime_malloc(total_size, error_buf, error_buf_size))) { return NULL; } /* instantiate memories from import section */ import = module->import_memories; for (i = 0; i < module->import_memory_count; i++, import++) { uint32 num_bytes_per_page = import->u.memory.num_bytes_per_page; uint32 init_page_count = import->u.memory.init_page_count; uint32 max_page_count = import->u.memory.max_page_count; uint32 flags = import->u.memory.flags; uint32 actual_heap_size = heap_size; #if WASM_ENABLE_MULTI_MODULE != 0 if (import->u.memory.import_module != NULL) { WASMModuleInstance *module_inst_linked; if (!(module_inst_linked = get_sub_module_inst( module_inst, import->u.memory.import_module))) { set_error_buf(error_buf, error_buf_size, "unknown memory"); memories_deinstantiate(module_inst, memories, memory_count); return NULL; } if (!(memory = memories[mem_index++] = wasm_lookup_memory( module_inst_linked, import->u.memory.field_name))) { set_error_buf(error_buf, error_buf_size, "unknown memory"); memories_deinstantiate(module_inst, memories, memory_count); return NULL; } } else #endif { if (!(memory = memories[mem_index++] = memory_instantiate( module_inst, num_bytes_per_page, init_page_count, max_page_count, actual_heap_size, flags, error_buf, error_buf_size))) { memories_deinstantiate(module_inst, memories, memory_count); return NULL; } #if WASM_ENABLE_MULTI_MODULE != 0 /* The module of the import memory is a builtin module, and the memory is created by current module, set its owner to current module, so the memory can be destroyed in memories_deinstantiate. */ memory->owner = module_inst; #endif } } /* instantiate memories from memory section */ for (i = 0; i < module->memory_count; i++) { if (!(memory = memories[mem_index++] = memory_instantiate(module_inst, module->memories[i].num_bytes_per_page, module->memories[i].init_page_count, module->memories[i].max_page_count, heap_size, module->memories[i].flags, error_buf, error_buf_size))) { memories_deinstantiate(module_inst, memories, memory_count); return NULL; } #if WASM_ENABLE_MULTI_MODULE != 0 memory->owner = module_inst; #endif } if (mem_index == 0) { /** * no import memory and define memory, but still need heap * for wasm code */ if (!(memory = memories[mem_index++] = memory_instantiate(module_inst, 0, 0, 0, heap_size, 0, error_buf, error_buf_size))) { memories_deinstantiate(module_inst, memories, memory_count); return NULL; } } bh_assert(mem_index == memory_count); (void)module_inst; return memories; } /** * Destroy table instances. */ static void tables_deinstantiate(WASMTableInstance **tables, uint32 count) { uint32 i; if (tables) { for (i = 0; i < count; i++) if (tables[i]) wasm_runtime_free(tables[i]); wasm_runtime_free(tables); } } /** * Instantiate tables in a module. */ static WASMTableInstance ** tables_instantiate(const WASMModule *module, WASMModuleInstance *module_inst, char *error_buf, uint32 error_buf_size) { WASMImport *import; uint32 table_index = 0, i, table_count = module->import_table_count + module->table_count; uint64 total_size = sizeof(WASMTableInstance*) * (uint64)table_count; WASMTableInstance **tables, *table; if (!(tables = runtime_malloc(total_size, error_buf, error_buf_size))) { return NULL; } /* instantiate tables from import section */ import = module->import_tables; for (i = 0; i < module->import_table_count; i++, import++) { #if WASM_ENABLE_MULTI_MODULE != 0 WASMTableInstance *table_inst_linked = NULL; WASMModuleInstance *module_inst_linked = NULL; if (import->u.table.import_module) { if (!(module_inst_linked = get_sub_module_inst(module_inst, import->u.table.import_module))) { set_error_buf(error_buf, error_buf_size, "unknown table"); tables_deinstantiate(tables, table_count); return NULL; } if (!(table_inst_linked = wasm_lookup_table(module_inst_linked, import->u.table.field_name))) { set_error_buf(error_buf, error_buf_size, "unknown table"); tables_deinstantiate(tables, table_count); return NULL; } total_size = offsetof(WASMTableInstance, base_addr); } else #endif { /* it is a built-in table */ total_size = offsetof(WASMTableInstance, base_addr) + sizeof(uint32) * (uint64)import->u.table.init_size; } if (!(table = tables[table_index++] = runtime_malloc (total_size, error_buf, error_buf_size))) { tables_deinstantiate(tables, table_count); return NULL; } /* Set all elements to -1 to mark them as uninitialized elements */ memset(table, -1, (uint32)total_size); #if WASM_ENABLE_MULTI_MODULE != 0 table->table_inst_linked = table_inst_linked; if (table_inst_linked != NULL) { table->elem_type = table_inst_linked->elem_type; table->cur_size = table_inst_linked->cur_size; table->max_size = table_inst_linked->max_size; } else #endif { table->elem_type = import->u.table.elem_type; table->cur_size = import->u.table.init_size; table->max_size = import->u.table.max_size; } } /* instantiate tables from table section */ for (i = 0; i < module->table_count; i++) { total_size = offsetof(WASMTableInstance, base_addr) + sizeof(uint32) * (uint64)module->tables[i].init_size; if (!(table = tables[table_index++] = runtime_malloc (total_size, error_buf, error_buf_size))) { tables_deinstantiate(tables, table_count); return NULL; } /* Set all elements to -1 to mark them as uninitialized elements */ memset(table, -1, (uint32)total_size); table->elem_type = module->tables[i].elem_type; table->cur_size = module->tables[i].init_size; table->max_size = module->tables[i].max_size; #if WASM_ENABLE_MULTI_MODULE != 0 table->table_inst_linked = NULL; #endif } bh_assert(table_index == table_count); (void)module_inst; return tables; } /** * Destroy function instances. */ static void functions_deinstantiate(WASMFunctionInstance *functions, uint32 count) { if (functions) { wasm_runtime_free(functions); } } /** * Instantiate functions in a module. */ static WASMFunctionInstance * functions_instantiate(const WASMModule *module, WASMModuleInstance *module_inst, char *error_buf, uint32 error_buf_size) { WASMImport *import; uint32 i, function_count = module->import_function_count + module->function_count; uint64 total_size = sizeof(WASMFunctionInstance) * (uint64)function_count; WASMFunctionInstance *functions, *function; if (!(functions = runtime_malloc(total_size, error_buf, error_buf_size))) { return NULL; } /* instantiate functions from import section */ function = functions; import = module->import_functions; for (i = 0; i < module->import_function_count; i++, import++) { function->is_import_func = true; #if WASM_ENABLE_MULTI_MODULE != 0 if (import->u.function.import_module) { function->import_module_inst = get_sub_module_inst(module_inst, import->u.function.import_module); if (function->import_module_inst) { function->import_func_inst = wasm_lookup_function(function->import_module_inst, import->u.function.field_name, NULL); } } #endif /* WASM_ENABLE_MULTI_MODULE */ function->u.func_import = &import->u.function; function->param_cell_num = import->u.function.func_type->param_cell_num; function->ret_cell_num = import->u.function.func_type->ret_cell_num; function->param_count = (uint16)function->u.func_import->func_type->param_count; function->param_types = function->u.func_import->func_type->types; function->local_cell_num = 0; function->local_count = 0; function->local_types = NULL; function++; } /* instantiate functions from function section */ for (i = 0; i < module->function_count; i++) { function->is_import_func = false; function->u.func = module->functions[i]; function->param_cell_num = function->u.func->param_cell_num; function->ret_cell_num = function->u.func->ret_cell_num; function->local_cell_num = function->u.func->local_cell_num; function->param_count = (uint16)function->u.func->func_type->param_count; function->local_count = (uint16)function->u.func->local_count; function->param_types = function->u.func->func_type->types; function->local_types = function->u.func->local_types; function->local_offsets = function->u.func->local_offsets; #if WASM_ENABLE_FAST_INTERP != 0 function->const_cell_num = function->u.func->const_cell_num; #endif function++; } bh_assert((uint32)(function - functions) == function_count); (void)module_inst; return functions; } /** * Destroy global instances. */ static void globals_deinstantiate(WASMGlobalInstance *globals) { if (globals) wasm_runtime_free(globals); } /** * init_expr->u ==> init_val */ static bool parse_init_expr(const InitializerExpression *init_expr, const WASMGlobalInstance *global_inst_array, uint32 boundary, WASMValue *init_val) { if (init_expr->init_expr_type == INIT_EXPR_TYPE_GET_GLOBAL) { uint32 target_global_index = init_expr->u.global_index; /** * a global gets the init value of another global */ if (target_global_index >= boundary) { LOG_DEBUG("unknown target global, %d", target_global_index); return false; } /** * it will work if using WASMGlobalImport and WASMGlobal in * WASMModule, but will have to face complicated cases * * but we still have no sure the target global has been * initialized before */ WASMValue target_value = global_inst_array[target_global_index].initial_value; bh_memcpy_s(init_val, sizeof(WASMValue), &target_value, sizeof(target_value)); } else { bh_memcpy_s(init_val, sizeof(WASMValue), &init_expr->u, sizeof(init_expr->u)); } return true; } /** * Instantiate globals in a module. */ static WASMGlobalInstance * globals_instantiate(const WASMModule *module, WASMModuleInstance *module_inst, uint32 *p_global_data_size, char *error_buf, uint32 error_buf_size) { WASMImport *import; uint32 global_data_offset = 0; uint32 i, global_count = module->import_global_count + module->global_count; uint64 total_size = sizeof(WASMGlobalInstance) * (uint64)global_count; WASMGlobalInstance *globals, *global; if (!(globals = runtime_malloc(total_size, error_buf, error_buf_size))) { return NULL; } /* instantiate globals from import section */ global = globals; import = module->import_globals; for (i = 0; i < module->import_global_count; i++, import++) { WASMGlobalImport *global_import = &import->u.global; global->type = global_import->type; global->is_mutable = global_import->is_mutable; #if WASM_ENABLE_MULTI_MODULE != 0 if (global_import->import_module) { if (!(global->import_module_inst = get_sub_module_inst( module_inst, global_import->import_module))) { set_error_buf(error_buf, error_buf_size, "unknown global"); return NULL; } if (!(global->import_global_inst = wasm_lookup_global( global->import_module_inst, global_import->field_name))) { set_error_buf(error_buf, error_buf_size, "unknown global"); return NULL; } /** * although, actually don't need initial_value for an imported * global, we keep it here like a place holder because of * global-data and * (global $g2 i32 (global.get $g1)) */ if (!parse_init_expr( &(global_import->import_global_linked->init_expr), global->import_module_inst->globals, global->import_module_inst->global_count, &(global->initial_value))) { set_error_buf(error_buf, error_buf_size, "unknown global"); return NULL; } } else #endif { /* native globals share their initial_values in one module */ global->initial_value = global_import->global_data_linked; } global->data_offset = global_data_offset; global_data_offset += wasm_value_type_size(global->type); global++; } /* instantiate globals from global section */ for (i = 0; i < module->global_count; i++) { bool ret = false; uint32 global_count = module->import_global_count + module->global_count; InitializerExpression *init_expr = &(module->globals[i].init_expr); global->type = module->globals[i].type; global->is_mutable = module->globals[i].is_mutable; global->data_offset = global_data_offset; global_data_offset += wasm_value_type_size(global->type); /** * first init, it might happen that the target global instance * has not been initialize yet */ if (init_expr->init_expr_type != INIT_EXPR_TYPE_GET_GLOBAL) { ret = parse_init_expr(init_expr, globals, global_count, &(global->initial_value)); if (!ret) { set_error_buf(error_buf, error_buf_size, "unknown global"); return NULL; } } global++; } bh_assert((uint32)(global - globals) == global_count); *p_global_data_size = global_data_offset; (void)module_inst; return globals; } static bool globals_instantiate_fix(WASMGlobalInstance *globals, const WASMModule *module, char *error_buf, uint32 error_buf_size) { WASMGlobalInstance *global = globals; uint32 i; uint32 global_count = module->import_global_count + module->global_count; /** * second init, only target global instances from global * (ignore import_global) * to fix skipped init_value in the previous round * hope two rounds are enough but how about a chain ? */ for (i = 0; i < module->global_count; i++) { bool ret = false; InitializerExpression *init_expr = &module->globals[i].init_expr; if (init_expr->init_expr_type == INIT_EXPR_TYPE_GET_GLOBAL) { ret = parse_init_expr(init_expr, globals, global_count, &global->initial_value); if (!ret) { set_error_buf(error_buf, error_buf_size, "unknown global"); return false; } } global++; } return true; } /** * Return export function count in module export section. */ static uint32 get_export_count(const WASMModule *module, uint8 kind) { WASMExport *export = module->exports; uint32 count = 0, i; for (i = 0; i < module->export_count; i++, export++) if (export->kind == kind) count++; return count; } /** * Destroy export function instances. */ static void export_functions_deinstantiate(WASMExportFuncInstance *functions) { if (functions) wasm_runtime_free(functions); } /** * Instantiate export functions in a module. */ static WASMExportFuncInstance* export_functions_instantiate(const WASMModule *module, WASMModuleInstance *module_inst, uint32 export_func_count, char *error_buf, uint32 error_buf_size) { WASMExportFuncInstance *export_funcs, *export_func; WASMExport *export = module->exports; uint32 i; uint64 total_size = sizeof(WASMExportFuncInstance) * (uint64)export_func_count; if (!(export_func = export_funcs = runtime_malloc (total_size, error_buf, error_buf_size))) { return NULL; } for (i = 0; i < module->export_count; i++, export++) if (export->kind == EXPORT_KIND_FUNC) { export_func->name = export->name; export_func->function = &module_inst->functions[export->index]; export_func++; } bh_assert((uint32)(export_func - export_funcs) == export_func_count); return export_funcs; } #if WASM_ENABLE_MULTI_MODULE != 0 static void export_globals_deinstantiate(WASMExportGlobInstance *globals) { if (globals) wasm_runtime_free(globals); } static WASMExportGlobInstance * export_globals_instantiate(const WASMModule *module, WASMModuleInstance *module_inst, uint32 export_glob_count, char *error_buf, uint32 error_buf_size) { WASMExportGlobInstance *export_globals, *export_global; WASMExport *export = module->exports; uint32 i; uint64 total_size = sizeof(WASMExportGlobInstance) * (uint64)export_glob_count; if (!(export_global = export_globals = runtime_malloc (total_size, error_buf, error_buf_size))) { return NULL; } for (i = 0; i < module->export_count; i++, export++) if (export->kind == EXPORT_KIND_GLOBAL) { export_global->name = export->name; export_global->global = &module_inst->globals[export->index]; export_global++; } bh_assert((uint32)(export_global - export_globals) == export_glob_count); return export_globals; } #endif static bool execute_post_inst_function(WASMModuleInstance *module_inst) { WASMFunctionInstance *post_inst_func = NULL; WASMType *post_inst_func_type; uint32 i; for (i = 0; i < module_inst->export_func_count; i++) if (!strcmp(module_inst->export_functions[i].name, "__post_instantiate")) { post_inst_func = module_inst->export_functions[i].function; break; } if (!post_inst_func) /* Not found */ return true; post_inst_func_type = post_inst_func->u.func->func_type; if (post_inst_func_type->param_count != 0 || post_inst_func_type->result_count != 0) /* Not a valid function type, ignore it */ return true; return wasm_create_exec_env_and_call_function(module_inst, post_inst_func, 0, NULL); } #if WASM_ENABLE_BULK_MEMORY != 0 static bool execute_memory_init_function(WASMModuleInstance *module_inst) { WASMFunctionInstance *memory_init_func = NULL; WASMType *memory_init_func_type; uint32 i; for (i = 0; i < module_inst->export_func_count; i++) if (!strcmp(module_inst->export_functions[i].name, "__wasm_call_ctors")) { memory_init_func = module_inst->export_functions[i].function; break; } if (!memory_init_func) /* Not found */ return true; memory_init_func_type = memory_init_func->u.func->func_type; if (memory_init_func_type->param_count != 0 || memory_init_func_type->result_count != 0) /* Not a valid function type, ignore it */ return true; return wasm_create_exec_env_and_call_function(module_inst, memory_init_func, 0, NULL); } #endif static bool execute_start_function(WASMModuleInstance *module_inst) { WASMFunctionInstance *func = module_inst->start_function; if (!func) return true; bh_assert(!func->is_import_func && func->param_cell_num == 0 && func->ret_cell_num == 0); return wasm_create_exec_env_and_call_function(module_inst, func, 0, NULL); } static bool execute_malloc_function(WASMModuleInstance *module_inst, WASMFunctionInstance *malloc_func, WASMFunctionInstance *retain_func, uint32 size, uint32 *p_result) { uint32 argv[2], argc; bool ret; argv[0] = size; argc = 1; /* if __retain is exported, then this module is compiled by assemblyscript, the memory should be managed by as's runtime, in this case we need to call the retain function after malloc the memory */ if (retain_func) { /* the malloc functino from assemblyscript is: function __new(size: usize, id: u32) id = 0 means this is an ArrayBuffer object */ argv[1] = 0; argc = 2; } ret = wasm_create_exec_env_and_call_function (module_inst, malloc_func, argc, argv); if (retain_func && ret) { ret = wasm_create_exec_env_and_call_function (module_inst, retain_func, 1, argv); } if (ret) *p_result = argv[0]; return ret; } static bool execute_free_function(WASMModuleInstance *module_inst, WASMFunctionInstance *free_func, uint32 offset) { uint32 argv[2]; argv[0] = offset; return wasm_create_exec_env_and_call_function (module_inst, free_func, 1, argv); } #if WASM_ENABLE_MULTI_MODULE != 0 static bool sub_module_instantiate(WASMModule *module, WASMModuleInstance *module_inst, uint32 stack_size, uint32 heap_size, char *error_buf, uint32 error_buf_size) { bh_list *sub_module_inst_list = module_inst->sub_module_inst_list; WASMRegisteredModule *sub_module_list_node = bh_list_first_elem(module->import_module_list); while (sub_module_list_node) { WASMSubModInstNode *sub_module_inst_list_node; WASMModule *sub_module = (WASMModule*)sub_module_list_node->module; WASMModuleInstance *sub_module_inst = wasm_instantiate(sub_module, false, stack_size, heap_size, error_buf, error_buf_size); if (!sub_module_inst) { LOG_DEBUG("instantiate %s failed", sub_module_list_node->module_name); return false; } sub_module_inst_list_node = runtime_malloc (sizeof(WASMSubModInstNode), error_buf, error_buf_size); if (!sub_module_inst_list_node) { LOG_DEBUG("Malloc WASMSubModInstNode failed, SZ:%d", sizeof(WASMSubModInstNode)); wasm_deinstantiate(sub_module_inst, false); return false; } sub_module_inst_list_node->module_inst = sub_module_inst; sub_module_inst_list_node->module_name = sub_module_list_node->module_name; bh_list_status ret = bh_list_insert(sub_module_inst_list, sub_module_inst_list_node); bh_assert(BH_LIST_SUCCESS == ret); (void)ret; sub_module_list_node = bh_list_elem_next(sub_module_list_node); } return true; } static void sub_module_deinstantiate(WASMModuleInstance *module_inst) { bh_list *list = module_inst->sub_module_inst_list; WASMSubModInstNode *node = bh_list_first_elem(list); while (node) { WASMSubModInstNode *next_node = bh_list_elem_next(node); bh_list_remove(list, node); wasm_deinstantiate(node->module_inst, false); wasm_runtime_free(node); node = next_node; } } #endif static bool check_linked_symbol(WASMModuleInstance *module_inst, char *error_buf, uint32 error_buf_size) { WASMModule *module = module_inst->module; uint32 i; for (i = 0; i < module->import_function_count; i++) { WASMFunctionImport *func = &((module->import_functions + i)->u.function); if (!func->func_ptr_linked #if WASM_ENABLE_MULTI_MODULE != 0 && !func->import_func_linked #endif ) { #if WASM_ENABLE_SPEC_TEST != 0 set_error_buf(error_buf, error_buf_size, "unknown import or incompatible import type"); return false; #else #if WASM_ENABLE_WAMR_COMPILER == 0 LOG_WARNING("warning: failed to link import function (%s, %s)", func->module_name, func->field_name); #else /* do nothing to avoid confused message */ #endif /* WASM_ENABLE_WAMR_COMPILER == 0 */ #endif /* WASM_ENABLE_SPEC_TEST != 0 */ } } for (i = 0; i < module->import_global_count; i++) { WASMGlobalImport *global = &((module->import_globals + i)->u.global); if (!global->is_linked) { #if WASM_ENABLE_SPEC_TEST != 0 set_error_buf(error_buf, error_buf_size, "unknown import or incompatible import type"); return false; #else #if WASM_ENABLE_WAMR_COMPILER == 0 LOG_DEBUG("warning: failed to link import global (%s, %s)", global->module_name, global->field_name); #else /* do nothing to avoid confused message */ #endif /* WASM_ENABLE_WAMR_COMPILER == 0 */ #endif /* WASM_ENABLE_SPEC_TEST != 0 */ } } return true; } /** * Instantiate module */ WASMModuleInstance* wasm_instantiate(WASMModule *module, bool is_sub_inst, uint32 stack_size, uint32 heap_size, char *error_buf, uint32 error_buf_size) { WASMModuleInstance *module_inst; WASMGlobalInstance *globals = NULL, *global; uint32 global_count, global_data_size = 0, i; uint32 base_offset, length; uint8 *global_data, *global_data_end; #if WASM_ENABLE_MULTI_MODULE != 0 bool ret = false; #endif if (!module) return NULL; /* Check heap size */ heap_size = align_uint(heap_size, 8); if (heap_size > APP_HEAP_SIZE_MAX) heap_size = APP_HEAP_SIZE_MAX; /* Allocate the memory */ if (!(module_inst = runtime_malloc(sizeof(WASMModuleInstance), error_buf, error_buf_size))) { return NULL; } module_inst->module = module; #if WASM_ENABLE_MULTI_MODULE != 0 module_inst->sub_module_inst_list = &module_inst->sub_module_inst_list_head; ret = sub_module_instantiate(module, module_inst, stack_size, heap_size, error_buf, error_buf_size); if (!ret) { LOG_DEBUG("build a sub module list failed"); goto fail; } #endif /* Instantiate global firstly to get the mutable data size */ global_count = module->import_global_count + module->global_count; if (global_count && !(globals = globals_instantiate(module, module_inst, &global_data_size, error_buf, error_buf_size))) { goto fail; } module_inst->global_count = global_count; module_inst->globals = globals; module_inst->memory_count = module->import_memory_count + module->memory_count; module_inst->table_count = module->import_table_count + module->table_count; module_inst->function_count = module->import_function_count + module->function_count; /* export */ module_inst->export_func_count = get_export_count(module, EXPORT_KIND_FUNC); #if WASM_ENABLE_MULTI_MODULE != 0 module_inst->export_tab_count = get_export_count(module, EXPORT_KIND_TABLE); module_inst->export_mem_count = get_export_count(module, EXPORT_KIND_MEMORY); module_inst->export_glob_count = get_export_count(module, EXPORT_KIND_GLOBAL); #endif if (global_count > 0) { if (!(module_inst->global_data = runtime_malloc (global_data_size, error_buf, error_buf_size))) { goto fail; } } /* Instantiate memories/tables/functions */ if ((module_inst->memory_count > 0 && !(module_inst->memories = memories_instantiate(module, module_inst, heap_size, error_buf, error_buf_size))) || (module_inst->table_count > 0 && !(module_inst->tables = tables_instantiate(module, module_inst, error_buf, error_buf_size))) || (module_inst->function_count > 0 && !(module_inst->functions = functions_instantiate(module, module_inst, error_buf, error_buf_size))) || (module_inst->export_func_count > 0 && !(module_inst->export_functions = export_functions_instantiate( module, module_inst, module_inst->export_func_count, error_buf, error_buf_size))) #if WASM_ENABLE_MULTI_MODULE != 0 || (module_inst->export_glob_count > 0 && !(module_inst->export_globals = export_globals_instantiate( module, module_inst, module_inst->export_glob_count, error_buf, error_buf_size))) #endif ) { goto fail; } if (global_count > 0) { /** * since there might be some globals are not instantiate the first * instantiate round */ if (!globals_instantiate_fix(globals, module, error_buf, error_buf_size)) { goto fail; } /* Initialize the global data */ global_data = module_inst->global_data; global_data_end = global_data + global_data_size; global = globals; for (i = 0; i < global_count; i++, global++) { switch (global->type) { case VALUE_TYPE_I32: case VALUE_TYPE_F32: *(int32*)global_data = global->initial_value.i32; global_data += sizeof(int32); break; case VALUE_TYPE_I64: case VALUE_TYPE_F64: bh_memcpy_s(global_data, (uint32)(global_data_end - global_data), &global->initial_value.i64, sizeof(int64)); global_data += sizeof(int64); break; default: bh_assert(0); } } bh_assert(global_data == global_data_end); } if (!check_linked_symbol(module_inst, error_buf, error_buf_size)) { goto fail; } /* Initialize the memory data with data segment section */ module_inst->default_memory = module_inst->memory_count ? module_inst->memories[0] : NULL; for (i = 0; i < module->data_seg_count; i++) { WASMMemoryInstance *memory = NULL; uint8 *memory_data = NULL; uint32 memory_size = 0; WASMDataSeg *data_seg = module->data_segments[i]; #if WASM_ENABLE_BULK_MEMORY != 0 if (data_seg->is_passive) continue; #endif /* has check it in loader */ memory = module_inst->memories[data_seg->memory_index]; bh_assert(memory); memory_data = memory->memory_data; memory_size = memory->num_bytes_per_page * memory->cur_page_count; bh_assert(memory_data || memory_size == 0); bh_assert(data_seg->base_offset.init_expr_type == INIT_EXPR_TYPE_I32_CONST || data_seg->base_offset.init_expr_type == INIT_EXPR_TYPE_GET_GLOBAL); if (data_seg->base_offset.init_expr_type == INIT_EXPR_TYPE_GET_GLOBAL) { if (!globals || data_seg->base_offset.u.global_index >= global_count || globals[data_seg->base_offset.u.global_index].type != VALUE_TYPE_I32) { set_error_buf(error_buf, error_buf_size, "data segment does not fit"); goto fail; } data_seg->base_offset.u.i32 = globals[data_seg->base_offset.u.global_index] .initial_value.i32; } /* check offset since length might negative */ base_offset = (uint32)data_seg->base_offset.u.i32; if (base_offset > memory_size) { LOG_DEBUG("base_offset(%d) > memory_size(%d)", base_offset, memory_size); set_error_buf(error_buf, error_buf_size, "data segment does not fit"); goto fail; } /* check offset + length(could be zero) */ length = data_seg->data_length; if (base_offset + length > memory_size) { LOG_DEBUG("base_offset(%d) + length(%d) > memory_size(%d)", base_offset, length, memory_size); set_error_buf(error_buf, error_buf_size, "data segment does not fit"); goto fail; } if (memory_data) { bh_memcpy_s(memory_data + base_offset, memory_size - base_offset, data_seg->data, length); } } /* Initialize the table data with table segment section */ module_inst->default_table = module_inst->table_count ? module_inst->tables[0] : NULL; for (i = 0; i < module->table_seg_count; i++) { WASMTableSeg *table_seg = module->table_segments + i; /* has check it in loader */ WASMTableInstance *table = module_inst->tables[table_seg->table_index]; bh_assert(table); uint32 *table_data = (uint32 *)table->base_addr; #if WASM_ENABLE_MULTI_MODULE != 0 table_data = table->table_inst_linked ? (uint32 *)table->table_inst_linked->base_addr : table_data; #endif bh_assert(table_data); /* init vec(funcidx) */ bh_assert(table_seg->base_offset.init_expr_type == INIT_EXPR_TYPE_I32_CONST || table_seg->base_offset.init_expr_type == INIT_EXPR_TYPE_GET_GLOBAL); if (table_seg->base_offset.init_expr_type == INIT_EXPR_TYPE_GET_GLOBAL) { if (!globals || table_seg->base_offset.u.global_index >= global_count || globals[table_seg->base_offset.u.global_index].type != VALUE_TYPE_I32) { set_error_buf(error_buf, error_buf_size, "elements segment does not fit"); goto fail; } table_seg->base_offset.u.i32 = globals[table_seg->base_offset.u.global_index].initial_value.i32; } /* check offset since length might negative */ if ((uint32)table_seg->base_offset.u.i32 > table->cur_size) { LOG_DEBUG("base_offset(%d) > table->cur_size(%d)", table_seg->base_offset.u.i32, table->cur_size); set_error_buf(error_buf, error_buf_size, "elements segment does not fit"); goto fail; } /* check offset + length(could be zero) */ length = table_seg->function_count; if ((uint32)table_seg->base_offset.u.i32 + length > table->cur_size) { LOG_DEBUG("base_offset(%d) + length(%d)> table->cur_size(%d)", table_seg->base_offset.u.i32, length, table->cur_size); set_error_buf(error_buf, error_buf_size, "elements segment does not fit"); goto fail; } /** * Check function index in the current module inst for now. * will check the linked table inst owner in future. * so loader check is enough */ bh_memcpy_s( table_data + table_seg->base_offset.u.i32, (uint32)((table->cur_size - (uint32)table_seg->base_offset.u.i32) * sizeof(uint32)), table_seg->func_indexes, (uint32)(length * sizeof(uint32))); } /* module instance type */ module_inst->module_type = Wasm_Module_Bytecode; /* Initialize the thread related data */ if (stack_size == 0) stack_size = DEFAULT_WASM_STACK_SIZE; #if WASM_ENABLE_SPEC_TEST != 0 if (stack_size < 48 *1024) stack_size = 48 * 1024; #endif module_inst->default_wasm_stack_size = stack_size; if (module->malloc_function != (uint32)-1) { module_inst->malloc_function = &module_inst->functions[module->malloc_function]; } if (module->free_function != (uint32)-1) { module_inst->free_function = &module_inst->functions[module->free_function]; } if (module->retain_function != (uint32)-1) { module_inst->retain_function = &module_inst->functions[module->retain_function]; } #if WASM_ENABLE_LIBC_WASI != 0 /* The sub-instance will get the wasi_ctx from main-instance */ if (!is_sub_inst) { if (heap_size > 0 && !wasm_runtime_init_wasi((WASMModuleInstanceCommon*)module_inst, module->wasi_args.dir_list, module->wasi_args.dir_count, module->wasi_args.map_dir_list, module->wasi_args.map_dir_count, module->wasi_args.env, module->wasi_args.env_count, module->wasi_args.argv, module->wasi_args.argc, error_buf, error_buf_size)) { goto fail; } } #endif if (module->start_function != (uint32)-1) { /* TODO: fix start function can be import function issue */ if (module->start_function >= module->import_function_count) module_inst->start_function = &module_inst->functions[module->start_function]; } /* Execute __post_instantiate function */ if (!execute_post_inst_function(module_inst) || !execute_start_function(module_inst)) { set_error_buf(error_buf, error_buf_size, module_inst->cur_exception); goto fail; } #if WASM_ENABLE_BULK_MEMORY != 0 #if WASM_ENABLE_LIBC_WASI != 0 if (!module->is_wasi_module) { #endif /* Only execute the memory init function for main instance because the data segments will be dropped once initialized. */ if (!is_sub_inst) { if (!execute_memory_init_function(module_inst)) { set_error_buf(error_buf, error_buf_size, module_inst->cur_exception); goto fail; } } #if WASM_ENABLE_LIBC_WASI != 0 } #endif #endif #if WASM_ENABLE_MEMORY_TRACING != 0 wasm_runtime_dump_module_inst_mem_consumption ((WASMModuleInstanceCommon *)module_inst); #endif (void)global_data_end; return module_inst; fail: wasm_deinstantiate(module_inst, false); return NULL; } void wasm_deinstantiate(WASMModuleInstance *module_inst, bool is_sub_inst) { if (!module_inst) return; #if WASM_ENABLE_MULTI_MODULE != 0 sub_module_deinstantiate(module_inst); #endif #if WASM_ENABLE_LIBC_WASI != 0 /* Destroy wasi resource before freeing app heap, since some fields of wasi contex are allocated from app heap, and if app heap is freed, these fields will be set to NULL, we cannot free their internal data which may allocated from global heap. */ /* Only destroy wasi ctx in the main module instance */ if (!is_sub_inst) wasm_runtime_destroy_wasi((WASMModuleInstanceCommon*)module_inst); #endif if (module_inst->memory_count > 0) memories_deinstantiate( module_inst, module_inst->memories, module_inst->memory_count); tables_deinstantiate(module_inst->tables, module_inst->table_count); functions_deinstantiate(module_inst->functions, module_inst->function_count); globals_deinstantiate(module_inst->globals); export_functions_deinstantiate(module_inst->export_functions); #if WASM_ENABLE_MULTI_MODULE != 0 export_globals_deinstantiate(module_inst->export_globals); #endif if (module_inst->global_data) wasm_runtime_free(module_inst->global_data); wasm_runtime_free(module_inst); } WASMFunctionInstance* wasm_lookup_function(const WASMModuleInstance *module_inst, const char *name, const char *signature) { uint32 i; for (i = 0; i < module_inst->export_func_count; i++) if (!strcmp(module_inst->export_functions[i].name, name)) return module_inst->export_functions[i].function; (void)signature; return NULL; } #if WASM_ENABLE_MULTI_MODULE != 0 WASMGlobalInstance * wasm_lookup_global(const WASMModuleInstance *module_inst, const char *name) { uint32 i; for (i = 0; i < module_inst->export_glob_count; i++) if (!strcmp(module_inst->export_globals[i].name, name)) return module_inst->export_globals[i].global; return NULL; } WASMMemoryInstance * wasm_lookup_memory(const WASMModuleInstance *module_inst, const char *name) { /** * using a strong assumption that one module instance only has * one memory instance */ (void)module_inst->export_memories; return module_inst->memories[0]; } WASMTableInstance * wasm_lookup_table(const WASMModuleInstance *module_inst, const char *name) { /** * using a strong assumption that one module instance only has * one table instance */ (void)module_inst->export_tables; return module_inst->tables[0]; } #endif static bool clear_wasi_proc_exit_exception(WASMModuleInstance *module_inst) { #if WASM_ENABLE_LIBC_WASI != 0 const char *exception = wasm_get_exception(module_inst); if (exception && !strcmp(exception, "Exception: wasi proc exit")) { /* The "wasi proc exit" exception is thrown by native lib to let wasm app exit, which is a normal behavior, we clear the exception here. */ wasm_set_exception(module_inst, NULL); return true; } return false; #else return false; #endif } bool wasm_call_function(WASMExecEnv *exec_env, WASMFunctionInstance *function, unsigned argc, uint32 argv[]) { WASMModuleInstance *module_inst = (WASMModuleInstance*)exec_env->module_inst; wasm_interp_call_wasm(module_inst, exec_env, function, argc, argv); (void)clear_wasi_proc_exit_exception(module_inst); return !wasm_get_exception(module_inst) ? true : false; } bool wasm_create_exec_env_and_call_function(WASMModuleInstance *module_inst, WASMFunctionInstance *func, unsigned argc, uint32 argv[]) { WASMExecEnv *exec_env; bool ret; if (!(exec_env = wasm_exec_env_create( (WASMModuleInstanceCommon*)module_inst, module_inst->default_wasm_stack_size))) { wasm_set_exception(module_inst, "allocate memory failed"); return false; } /* set thread handle and stack boundary */ wasm_exec_env_set_thread_info(exec_env); ret = wasm_call_function(exec_env, func, argc, argv); wasm_exec_env_destroy(exec_env); return ret; } void wasm_set_exception(WASMModuleInstance *module_inst, const char *exception) { if (exception) snprintf(module_inst->cur_exception, sizeof(module_inst->cur_exception), "Exception: %s", exception); else module_inst->cur_exception[0] = '\0'; } const char* wasm_get_exception(WASMModuleInstance *module_inst) { if (module_inst->cur_exception[0] == '\0') return NULL; else return module_inst->cur_exception; } #if WASM_ENABLE_PERF_PROFILING != 0 void wasm_dump_perf_profiling(const WASMModuleInstance *module_inst) { WASMExportFuncInstance *export_func; WASMFunctionInstance *func_inst; char *func_name; uint32 i, j; os_printf("Performance profiler data:\n"); for (i = 0; i < module_inst->function_count; i++) { func_inst = module_inst->functions + i; if (func_inst->is_import_func) { func_name = func_inst->u.func_import->field_name; } #if WASM_ENABLE_CUSTOM_NAME_SECTION != 0 else if (func_inst->u.func->field_name) { func_name = func_inst->u.func->field_name; } #endif else { func_name = NULL; for (j = 0; j < module_inst->export_func_count; j++) { export_func = module_inst->export_functions + j; if (export_func->function == func_inst) { func_name = export_func->name; break; } } } if (func_name) os_printf(" func %s, execution time: %.3f ms, execution count: %d times\n", func_name, module_inst->functions[i].total_exec_time / 1000.0f, module_inst->functions[i].total_exec_cnt); else os_printf(" func %d, execution time: %.3f ms, execution count: %d times\n", i, module_inst->functions[i].total_exec_time / 1000.0f, module_inst->functions[i].total_exec_cnt); } } #endif uint32 wasm_module_malloc(WASMModuleInstance *module_inst, uint32 size, void **p_native_addr) { WASMMemoryInstance *memory = module_inst->default_memory; uint8 *addr = NULL; uint32 offset = 0; if (!memory) { wasm_set_exception(module_inst, "uninitialized memory"); return 0; } if (memory->heap_handle) { addr = mem_allocator_malloc(memory->heap_handle, size); } else if (module_inst->malloc_function && module_inst->free_function) { if (!execute_malloc_function(module_inst, module_inst->malloc_function, module_inst->retain_function, size, &offset)) { return 0; } /* If we use app's malloc function, the default memory may be changed while memory growing */ memory = module_inst->default_memory; addr = offset ? memory->memory_data + offset : NULL; } if (!addr) { if (memory->heap_handle && mem_allocator_is_heap_corrupted(memory->heap_handle)) { LOG_ERROR("Error: app heap is corrupted, if the wasm file " "is compiled by wasi-sdk-12.0 or larger version, " "please add -Wl,--export=malloc -Wl,--export=free " " to export malloc and free functions."); wasm_set_exception(module_inst, "app heap corrupted"); } else { wasm_set_exception(module_inst, "out of memory"); } return 0; } if (p_native_addr) *p_native_addr = addr; return (uint32)(addr - memory->memory_data); } void wasm_module_free(WASMModuleInstance *module_inst, uint32 ptr) { if (ptr) { WASMMemoryInstance *memory = module_inst->default_memory; uint8* addr; if (!memory) { return; } addr = memory->memory_data + ptr; if (memory->heap_handle && memory->heap_data <= addr && addr < memory->heap_data_end) { mem_allocator_free(memory->heap_handle, addr); } else if (module_inst->malloc_function && module_inst->free_function && memory->memory_data <= addr && addr < memory->memory_data_end) { execute_free_function(module_inst, module_inst->free_function, ptr); } } } uint32 wasm_module_dup_data(WASMModuleInstance *module_inst, const char *src, uint32 size) { char *buffer; uint32 buffer_offset = wasm_module_malloc(module_inst, size, (void**)&buffer); if (buffer_offset != 0) { buffer = wasm_addr_app_to_native(module_inst, buffer_offset); bh_memcpy_s(buffer, size, src, size); } return buffer_offset; } bool wasm_validate_app_addr(WASMModuleInstance *module_inst, uint32 app_offset, uint32 size) { WASMMemoryInstance *memory = module_inst->default_memory; uint32 memory_data_size; if (!memory) { goto fail; } memory_data_size = memory->num_bytes_per_page * memory->cur_page_count; /* integer overflow check */ if (app_offset + size < app_offset) { goto fail; } if (app_offset + size <= memory_data_size) { return true; } fail: wasm_set_exception(module_inst, "out of bounds memory access"); return false; } bool wasm_validate_native_addr(WASMModuleInstance *module_inst, void *native_ptr, uint32 size) { WASMMemoryInstance *memory = module_inst->default_memory; uint8 *addr = (uint8 *)native_ptr; if (!memory) { goto fail; } /* integer overflow check */ if (addr + size < addr) { goto fail; } if (memory->memory_data <= addr && addr + size <= memory->memory_data_end) { return true; } fail: wasm_set_exception(module_inst, "out of bounds memory access"); return false; } void * wasm_addr_app_to_native(WASMModuleInstance *module_inst, uint32 app_offset) { WASMMemoryInstance *memory = module_inst->default_memory; uint8 *addr; if (!memory) return NULL; addr = memory->memory_data + app_offset; if (memory->memory_data <= addr && addr < memory->memory_data_end) return addr; return NULL; } uint32 wasm_addr_native_to_app(WASMModuleInstance *module_inst, void *native_ptr) { WASMMemoryInstance *memory = module_inst->default_memory; uint8 *addr = (uint8 *)native_ptr; if (!memory) return 0; if (memory->memory_data <= addr && addr < memory->memory_data_end) return (uint32)(addr - memory->memory_data); return 0; } bool wasm_get_app_addr_range(WASMModuleInstance *module_inst, uint32 app_offset, uint32 *p_app_start_offset, uint32 *p_app_end_offset) { WASMMemoryInstance *memory = module_inst->default_memory; uint32 memory_data_size; if (!memory) return false; memory_data_size = memory->num_bytes_per_page * memory->cur_page_count; 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; return true; } return false; } bool wasm_get_native_addr_range(WASMModuleInstance *module_inst, uint8 *native_ptr, uint8 **p_native_start_addr, uint8 **p_native_end_addr) { WASMMemoryInstance *memory = module_inst->default_memory; uint8 *addr = (uint8 *)native_ptr; if (!memory) return false; if (memory->memory_data <= addr && addr < memory->memory_data_end) { if (p_native_start_addr) *p_native_start_addr = memory->memory_data; if (p_native_end_addr) *p_native_end_addr = memory->memory_data_end; return true; } return false; } bool wasm_enlarge_memory(WASMModuleInstance *module, uint32 inc_page_count) { WASMMemoryInstance *memory = module->default_memory; uint8 *new_memory_data, *memory_data, *heap_data_old; uint32 heap_size, total_size_old, total_page_count; uint64 total_size; if (!memory) return false; memory_data = memory->memory_data; heap_size = memory->heap_data_end - memory->heap_data; total_size_old = memory->memory_data_end - memory_data; total_page_count = inc_page_count + memory->cur_page_count; total_size = memory->num_bytes_per_page * (uint64)total_page_count; heap_data_old = memory->heap_data; if (inc_page_count <= 0) /* No need to enlarge memory */ return true; if (total_page_count < memory->cur_page_count /* integer overflow */ || total_page_count > memory->max_page_count) { return false; } if (total_size >= UINT32_MAX) { return false; } #if WASM_ENABLE_SHARED_MEMORY != 0 if (memory->is_shared) { /* For shared memory, we have reserved the maximum spaces during instantiate, only change the cur_page_count here */ memory->cur_page_count = total_page_count; return true; } #endif if (!(new_memory_data = wasm_runtime_realloc(memory_data, (uint32)total_size))) { if (!(new_memory_data = wasm_runtime_malloc((uint32)total_size))) { return false; } if (memory_data) { bh_memcpy_s(new_memory_data, (uint32)total_size, memory_data, total_size_old); wasm_runtime_free(memory_data); } } memset(new_memory_data + total_size_old, 0, (uint32)total_size - total_size_old); if (heap_size > 0) { if (mem_allocator_migrate(memory->heap_handle, (char *)heap_data_old + (new_memory_data - memory_data), heap_size) != 0) { return false; } } memory->memory_data = new_memory_data; memory->cur_page_count = total_page_count; memory->heap_data = heap_data_old + (new_memory_data - memory_data); memory->heap_data_end = memory->heap_data + heap_size; memory->memory_data_end = memory->memory_data + memory->num_bytes_per_page * total_page_count; return true; } bool wasm_call_indirect(WASMExecEnv *exec_env, uint32_t element_indices, uint32_t argc, uint32_t argv[]) { WASMModuleInstance *module_inst = NULL; WASMTableInstance *table_inst = NULL; uint32_t function_indices = 0; WASMFunctionInstance *function_inst = NULL; module_inst = (WASMModuleInstance*)exec_env->module_inst; bh_assert(module_inst); table_inst = module_inst->default_table; if (!table_inst) { wasm_set_exception(module_inst, "unknown table"); goto got_exception; } if (element_indices >= table_inst->cur_size) { wasm_set_exception(module_inst, "undefined element"); goto got_exception; } /** * please be aware that table_inst->base_addr may point * to another module's table **/ function_indices = ((uint32_t*)table_inst->base_addr)[element_indices]; if (function_indices == 0xFFFFFFFF) { wasm_set_exception(module_inst, "uninitialized element"); goto got_exception; } /** * we insist to call functions owned by the module itself **/ if (function_indices >= module_inst->function_count) { wasm_set_exception(module_inst, "unknown function"); goto got_exception; } function_inst = module_inst->functions + function_indices; wasm_interp_call_wasm(module_inst, exec_env, function_inst, argc, argv); (void)clear_wasi_proc_exit_exception(module_inst); return !wasm_get_exception(module_inst) ? true : false; got_exception: return false; } #if WASM_ENABLE_THREAD_MGR != 0 bool wasm_set_aux_stack(WASMExecEnv *exec_env, uint32 start_offset, uint32 size) { WASMModuleInstance *module_inst = (WASMModuleInstance*)exec_env->module_inst; uint32 stack_top_idx = module_inst->module->aux_stack_top_global_index; uint32 data_end = module_inst->module->aux_data_end; uint32 stack_bottom = module_inst->module->aux_stack_bottom; bool is_stack_before_data = stack_bottom < data_end ? true : false; /* Check the aux stack space, currently we don't allocate space in heap */ if ((is_stack_before_data && (size > start_offset)) || ((!is_stack_before_data) && (start_offset - data_end < size))) return false; if (stack_top_idx != (uint32)-1) { /* The aux stack top is a wasm global, set the initial value for the global */ uint8 *global_addr = module_inst->global_data + module_inst->globals[stack_top_idx].data_offset; *(int32*)global_addr = start_offset; /* The aux stack boundary is a constant value, set the value to exec_env */ exec_env->aux_stack_boundary = start_offset - size; return true; } return false; } bool wasm_get_aux_stack(WASMExecEnv *exec_env, uint32 *start_offset, uint32 *size) { WASMModuleInstance *module_inst = (WASMModuleInstance*)exec_env->module_inst; /* The aux stack information is resolved in loader and store in module */ uint32 stack_bottom = module_inst->module->aux_stack_bottom; uint32 total_aux_stack_size = module_inst->module->aux_stack_size; if (stack_bottom != 0 && total_aux_stack_size != 0) { if (start_offset) *start_offset = stack_bottom; if (size) *size = total_aux_stack_size; return true; } return false; } #endif #if (WASM_ENABLE_MEMORY_PROFILING != 0) || (WASM_ENABLE_MEMORY_TRACING != 0) void wasm_get_module_mem_consumption(const WASMModule *module, WASMModuleMemConsumption *mem_conspn) { uint32 i, size; memset(mem_conspn, 0, sizeof(*mem_conspn)); mem_conspn->module_struct_size = sizeof(WASMModule); mem_conspn->types_size = sizeof(WASMType *) * module->type_count; for (i = 0; i < module->type_count; i++) { WASMType *type = module->types[i]; size = offsetof(WASMType, types) + sizeof(uint8) * (type->param_count + type->result_count); mem_conspn->types_size += size; } mem_conspn->imports_size = sizeof(WASMImport) * module->import_count; mem_conspn->functions_size = sizeof(WASMFunction *) * module->function_count; for (i = 0; i < module->function_count; i++) { WASMFunction *func = module->functions[i]; WASMType *type = func->func_type; size = sizeof(WASMFunction) + func->local_count + sizeof(uint16) * (type->param_count + func->local_count); #if WASM_ENABLE_FAST_INTERP != 0 size += func->code_compiled_size + sizeof(uint32) * func->const_cell_num; #endif mem_conspn->functions_size += size; } mem_conspn->tables_size = sizeof(WASMTable) * module->table_count; mem_conspn->memories_size = sizeof(WASMMemory) * module->memory_count; mem_conspn->globals_size = sizeof(WASMGlobal) * module->global_count; mem_conspn->exports_size = sizeof(WASMExport) * module->export_count; mem_conspn->table_segs_size = sizeof(WASMTableSeg) * module->table_seg_count; for (i = 0; i < module->table_seg_count; i++) { WASMTableSeg *table_seg = &module->table_segments[i]; mem_conspn->tables_size += sizeof(uint32) * table_seg->function_count; } mem_conspn->data_segs_size = sizeof(WASMDataSeg*) * module->data_seg_count; for (i = 0; i < module->data_seg_count; i++) { mem_conspn->data_segs_size += sizeof(WASMDataSeg); } if (module->const_str_list) { StringNode *node = module->const_str_list, *node_next; while (node) { node_next = node->next; mem_conspn->const_strs_size += sizeof(StringNode) + strlen(node->str) + 1; node = node_next; } } mem_conspn->total_size += mem_conspn->module_struct_size; mem_conspn->total_size += mem_conspn->types_size; mem_conspn->total_size += mem_conspn->imports_size; mem_conspn->total_size += mem_conspn->functions_size; mem_conspn->total_size += mem_conspn->tables_size; mem_conspn->total_size += mem_conspn->memories_size; mem_conspn->total_size += mem_conspn->globals_size; mem_conspn->total_size += mem_conspn->exports_size; mem_conspn->total_size += mem_conspn->table_segs_size; mem_conspn->total_size += mem_conspn->data_segs_size; mem_conspn->total_size += mem_conspn->const_strs_size; #if WASM_ENABLE_AOT != 0 mem_conspn->total_size += mem_conspn->aot_code_size; #endif } void wasm_get_module_inst_mem_consumption(const WASMModuleInstance *module_inst, WASMModuleInstMemConsumption *mem_conspn) { uint32 i, size; memset(mem_conspn, 0, sizeof(*mem_conspn)); mem_conspn->module_inst_struct_size = sizeof(WASMModuleInstance); mem_conspn->memories_size = sizeof(WASMMemoryInstance *) * module_inst->memory_count; for (i = 0; i < module_inst->memory_count; i++) { WASMMemoryInstance *memory = module_inst->memories[i]; size = sizeof(WASMMemoryInstance) + memory->num_bytes_per_page * memory->cur_page_count; mem_conspn->memories_size += size; mem_conspn->app_heap_size += memory->heap_data_end - memory->heap_data; /* size of app heap structure */ mem_conspn->memories_size += mem_allocator_get_heap_struct_size(); } mem_conspn->tables_size = sizeof(WASMTableInstance *) * module_inst->table_count; for (i = 0; i < module_inst->table_count; i++) { WASMTableInstance *table = module_inst->tables[i]; size = offsetof(WASMTableInstance, base_addr) + sizeof(uint32) * table->cur_size; mem_conspn->tables_size += size; } mem_conspn->functions_size = sizeof(WASMFunctionInstance) * module_inst->function_count; mem_conspn->globals_size = sizeof(WASMGlobalInstance) * module_inst->global_count; if (module_inst->global_count > 0) { WASMGlobalInstance *global = &module_inst->globals[module_inst->global_count - 1]; mem_conspn->globals_size += global->data_offset + wasm_value_type_size(global->type); } mem_conspn->exports_size = sizeof(WASMExportFuncInstance) * module_inst->export_func_count; mem_conspn->total_size += mem_conspn->module_inst_struct_size; mem_conspn->total_size += mem_conspn->memories_size; mem_conspn->total_size += mem_conspn->functions_size; mem_conspn->total_size += mem_conspn->tables_size; mem_conspn->total_size += mem_conspn->globals_size; mem_conspn->total_size += mem_conspn->exports_size; } #endif /* end of (WASM_ENABLE_MEMORY_PROFILING != 0) || (WASM_ENABLE_MEMORY_TRACING != 0) */ #if WASM_ENABLE_DUMP_CALL_STACK != 0 void wasm_interp_dump_call_stack(struct WASMExecEnv *exec_env) { WASMModuleInstance *module_inst = (WASMModuleInstance *)wasm_exec_env_get_module_inst(exec_env); WASMInterpFrame *cur_frame = wasm_exec_env_get_cur_frame(exec_env); WASMFunctionInstance *func_inst; WASMExportFuncInstance *export_func; const char *func_name = NULL; uint32 n, i; os_printf("\n"); for (n = 0; cur_frame && cur_frame->function; n++) { func_name = NULL; func_inst = cur_frame->function; if (func_inst->is_import_func) { func_name = func_inst->u.func_import->field_name; } else { #if WASM_ENABLE_CUSTOM_NAME_SECTION != 0 func_name = func_inst->u.func->field_name; #endif /* if custom name section is not generated, search symbols from export table */ if (!func_name) { for (i = 0; i < module_inst->export_func_count; i++) { export_func = module_inst->export_functions + i; if (export_func->function == func_inst) { func_name = export_func->name; break; } } } } /* function name not exported, print number instead */ if (func_name == NULL) { os_printf("#%02d $f%d \n", n, func_inst - module_inst->functions); } else { os_printf("#%02d %s \n", n, func_name); } cur_frame = cur_frame->prev_frame; } os_printf("\n"); } #endif /* end of WASM_ENABLE_DUMP_CALL_STACK */