/* * Copyright (C) 2019 Intel Corporation. All rights reserved. * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception */ #include "bh_platform.h" #if WASM_ENABLE_INTERP != 0 #include "../interpreter/wasm_runtime.h" #endif #if WASM_ENABLE_AOT != 0 #include "../aot/aot_runtime.h" #endif #if WASM_ENABLE_THREAD_MGR != 0 #include "../libraries/thread-mgr/thread_manager.h" #endif #if WASM_ENABLE_GC != 0 #include "gc/gc_object.h" #if WASM_ENABLE_STRINGREF != 0 #include "string_object.h" #endif #if WASM_ENABLE_GC_PERF_PROFILING != 0 #include "../../shared/mem-alloc/mem_alloc.h" #endif #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, "%s", string); } static void * runtime_malloc(uint64 size, WASMModuleInstanceCommon *module_inst, char *error_buf, uint32 error_buf_size) { void *mem; if (size >= UINT32_MAX || !(mem = wasm_runtime_malloc((uint32)size))) { if (module_inst != NULL) { wasm_runtime_set_exception(module_inst, "allocate memory failed"); } else if (error_buf != NULL) { set_error_buf(error_buf, error_buf_size, "allocate memory failed"); } return NULL; } memset(mem, 0, (uint32)size); return mem; } static union { int a; char b; } __ue = { .a = 1 }; #define is_little_endian() (__ue.b == 1) /* NOLINT */ /** * Implementation of wasm_application_execute_main() */ static bool check_main_func_type(const WASMFuncType *type, bool is_memory64) { if (!(type->param_count == 0 || type->param_count == 2) || type->result_count > 1) { LOG_ERROR( "WASM execute application failed: invalid main function type.\n"); return false; } if (type->param_count == 2 && !(type->types[0] == VALUE_TYPE_I32 && type->types[1] == (is_memory64 ? VALUE_TYPE_I64 : VALUE_TYPE_I32))) { LOG_ERROR( "WASM execute application failed: invalid main function type.\n"); return false; } if (type->result_count && type->types[type->param_count] != VALUE_TYPE_I32) { LOG_ERROR( "WASM execute application failed: invalid main function type.\n"); return false; } return true; } static bool execute_main(WASMModuleInstanceCommon *module_inst, int32 argc, char *argv[]) { WASMFunctionInstanceCommon *func; WASMFuncType *func_type = NULL; WASMExecEnv *exec_env = NULL; uint32 argc1 = 0, argv1[3] = { 0 }; uint32 total_argv_size = 0; uint64 total_size; uint64 argv_buf_offset = 0; int32 i; char *argv_buf, *p, *p_end; uint32 *argv_offsets, module_type; bool ret, is_import_func = true, is_memory64 = false; #if WASM_ENABLE_MEMORY64 != 0 WASMModuleInstance *wasm_module_inst = (WASMModuleInstance *)module_inst; is_memory64 = wasm_module_inst->memories[0]->is_memory64; #endif exec_env = wasm_runtime_get_exec_env_singleton(module_inst); if (!exec_env) { wasm_runtime_set_exception(module_inst, "create singleton exec_env failed"); return false; } #if WASM_ENABLE_LIBC_WASI != 0 /* In wasi mode, we should call the function named "_start" which initializes the wasi envrionment and then calls the actual main function. Directly calling main function may cause exception thrown. */ if ((func = wasm_runtime_lookup_wasi_start_function(module_inst))) { const char *wasi_proc_exit_exception = "wasi proc exit"; ret = wasm_runtime_call_wasm(exec_env, func, 0, NULL); #if WASM_ENABLE_THREAD_MGR != 0 if (ret) { /* On a successful return from the `_start` function, we terminate other threads by mimicking wasi:proc_exit(0). Note: - A return from the `main` function is an equivalent of exit(). (C standard) - When exit code is 0, wasi-libc's `_start` function just returns w/o calling `proc_exit`. - A process termination should terminate threads in the process. */ wasm_runtime_set_exception(module_inst, wasi_proc_exit_exception); /* exit_code is zero-initialized */ ret = false; } #endif /* report wasm proc exit as a success */ WASMModuleInstance *inst = (WASMModuleInstance *)module_inst; if (!ret && strstr(inst->cur_exception, wasi_proc_exit_exception)) { inst->cur_exception[0] = 0; ret = true; } return ret; } #endif /* end of WASM_ENABLE_LIBC_WASI */ if (!(func = wasm_runtime_lookup_function(module_inst, "main")) && !(func = wasm_runtime_lookup_function(module_inst, "__main_argc_argv")) && !(func = wasm_runtime_lookup_function(module_inst, "_main"))) { #if WASM_ENABLE_LIBC_WASI != 0 wasm_runtime_set_exception( module_inst, "lookup the entry point symbol (like _start, main, " "_main, __main_argc_argv) failed"); #else wasm_runtime_set_exception(module_inst, "lookup the entry point symbol (like main, " "_main, __main_argc_argv) failed"); #endif return false; } #if WASM_ENABLE_INTERP != 0 if (module_inst->module_type == Wasm_Module_Bytecode) { is_import_func = ((WASMFunctionInstance *)func)->is_import_func; } #endif #if WASM_ENABLE_AOT != 0 if (module_inst->module_type == Wasm_Module_AoT) { is_import_func = ((AOTFunctionInstance *)func)->is_import_func; } #endif if (is_import_func) { wasm_runtime_set_exception(module_inst, "lookup main function failed"); return false; } module_type = module_inst->module_type; func_type = wasm_runtime_get_function_type(func, module_type); if (!func_type) { LOG_ERROR("invalid module instance type"); return false; } if (!check_main_func_type(func_type, is_memory64)) { wasm_runtime_set_exception(module_inst, "invalid function type of main function"); return false; } if (func_type->param_count) { for (i = 0; i < argc; i++) total_argv_size += (uint32)(strlen(argv[i]) + 1); #if WASM_ENABLE_MEMORY64 != 0 if (is_memory64) /* `char **argv` is an array of 64-bit elements in memory64 */ total_argv_size = align_uint(total_argv_size, 8); else #endif total_argv_size = align_uint(total_argv_size, 4); #if WASM_ENABLE_MEMORY64 != 0 if (is_memory64) /* `char **argv` is an array of 64-bit elements in memory64 */ total_size = (uint64)total_argv_size + sizeof(uint64) * (uint64)argc; else #endif total_size = (uint64)total_argv_size + sizeof(uint32) * (uint64)argc; if (total_size >= UINT32_MAX || !(argv_buf_offset = wasm_runtime_module_malloc( module_inst, total_size, (void **)&argv_buf))) { wasm_runtime_set_exception(module_inst, "allocate memory failed"); return false; } p = argv_buf; argv_offsets = (uint32 *)(p + total_argv_size); p_end = p + total_size; for (i = 0; i < argc; i++) { bh_memcpy_s(p, (uint32)(p_end - p), argv[i], (uint32)(strlen(argv[i]) + 1)); #if WASM_ENABLE_MEMORY64 != 0 if (is_memory64) /* `char **argv` is an array of 64-bit elements in memory64 */ ((uint64 *)argv_offsets)[i] = (uint32)argv_buf_offset + (uint32)(p - argv_buf); else #endif argv_offsets[i] = (uint32)argv_buf_offset + (uint32)(p - argv_buf); p += strlen(argv[i]) + 1; } argv1[0] = (uint32)argc; #if WASM_ENABLE_MEMORY64 != 0 if (is_memory64) { argc1 = 3; uint64 app_addr = wasm_runtime_addr_native_to_app(module_inst, argv_offsets); PUT_I64_TO_ADDR(&argv[1], app_addr); } else #endif { argc1 = 2; argv1[1] = (uint32)wasm_runtime_addr_native_to_app(module_inst, argv_offsets); } } ret = wasm_runtime_call_wasm(exec_env, func, argc1, argv1); if (ret && func_type->result_count > 0 && argc > 0 && argv) /* copy the return value */ *(int *)argv = (int)argv1[0]; if (argv_buf_offset) wasm_runtime_module_free(module_inst, argv_buf_offset); return ret; } bool wasm_application_execute_main(WASMModuleInstanceCommon *module_inst, int32 argc, char *argv[]) { bool ret; #if (WASM_ENABLE_MEMORY_PROFILING != 0) WASMExecEnv *exec_env; #endif ret = execute_main(module_inst, argc, argv); #if WASM_ENABLE_MEMORY_PROFILING != 0 exec_env = wasm_runtime_get_exec_env_singleton(module_inst); if (exec_env) { wasm_runtime_dump_mem_consumption(exec_env); } #endif #if WASM_ENABLE_GC_PERF_PROFILING != 0 void *handle = wasm_runtime_get_gc_heap_handle(module_inst); mem_allocator_dump_perf_profiling(handle); #endif #if WASM_ENABLE_PERF_PROFILING != 0 wasm_runtime_dump_perf_profiling(module_inst); #endif if (ret) ret = wasm_runtime_get_exception(module_inst) == NULL; return ret; } /** * Implementation of wasm_application_execute_func() */ union ieee754_float { float f; /* This is the IEEE 754 single-precision format. */ union { struct { unsigned int negative : 1; unsigned int exponent : 8; unsigned int mantissa : 23; } ieee_big_endian; struct { unsigned int mantissa : 23; unsigned int exponent : 8; unsigned int negative : 1; } ieee_little_endian; } ieee; }; union ieee754_double { double d; /* This is the IEEE 754 double-precision format. */ union { struct { unsigned int negative : 1; unsigned int exponent : 11; /* Together these comprise the mantissa. */ unsigned int mantissa0 : 20; unsigned int mantissa1 : 32; } ieee_big_endian; struct { /* Together these comprise the mantissa. */ unsigned int mantissa1 : 32; unsigned int mantissa0 : 20; unsigned int exponent : 11; unsigned int negative : 1; } ieee_little_endian; } ieee; }; static bool execute_func(WASMModuleInstanceCommon *module_inst, const char *name, int32 argc, char *argv[]) { WASMFunctionInstanceCommon *target_func; WASMFuncType *type = NULL; WASMExecEnv *exec_env = NULL; #if WASM_ENABLE_GC != 0 WASMRefTypeMap *ref_type_map; WASMLocalObjectRef *local_ref; uint32 num_local_ref_pushed = 0; #endif uint32 argc1, *argv1 = NULL, cell_num = 0, j, k = 0; #if WASM_ENABLE_GC == 0 && WASM_ENABLE_REF_TYPES != 0 uint32 param_size_in_double_world = 0, result_size_in_double_world = 0; #endif int32 i, p, module_type; uint64 total_size; char buf[128]; bh_assert(argc >= 0); LOG_DEBUG("call a function \"%s\" with %d arguments", name, argc); if (!(target_func = wasm_runtime_lookup_function(module_inst, name))) { snprintf(buf, sizeof(buf), "lookup function %s failed", name); wasm_runtime_set_exception(module_inst, buf); goto fail; } module_type = module_inst->module_type; type = wasm_runtime_get_function_type(target_func, module_type); if (!type) { LOG_ERROR("invalid module instance type"); return false; } if (type->param_count != (uint32)argc) { wasm_runtime_set_exception(module_inst, "invalid input argument count"); goto fail; } exec_env = wasm_runtime_get_exec_env_singleton(module_inst); if (!exec_env) { wasm_runtime_set_exception(module_inst, "create singleton exec_env failed"); goto fail; } #if WASM_ENABLE_GC == 0 && WASM_ENABLE_REF_TYPES != 0 for (i = 0; i < type->param_count; i++) { param_size_in_double_world += wasm_value_type_cell_num_outside(type->types[i]); } for (i = 0; i < type->result_count; i++) { result_size_in_double_world += wasm_value_type_cell_num_outside( type->types[type->param_count + i]); } argc1 = param_size_in_double_world; cell_num = (param_size_in_double_world >= result_size_in_double_world) ? param_size_in_double_world : result_size_in_double_world; #else argc1 = type->param_cell_num; cell_num = (argc1 > type->ret_cell_num) ? argc1 : type->ret_cell_num; #endif total_size = sizeof(uint32) * (uint64)(cell_num > 2 ? cell_num : 2); if ((!(argv1 = runtime_malloc((uint32)total_size, module_inst, NULL, 0)))) { goto fail; } #if WASM_ENABLE_GC != 0 ref_type_map = type->ref_type_maps; #endif /* Parse arguments */ for (i = 0, p = 0; i < argc; i++) { char *endptr = NULL; bh_assert(argv[i] != NULL); if (argv[i][0] == '\0') { snprintf(buf, sizeof(buf), "invalid input argument %" PRId32, i); wasm_runtime_set_exception(module_inst, buf); goto fail; } switch (type->types[i]) { case VALUE_TYPE_I32: argv1[p++] = (uint32)strtoul(argv[i], &endptr, 0); break; case VALUE_TYPE_I64: { union { uint64 val; uint32 parts[2]; } u; u.val = strtoull(argv[i], &endptr, 0); argv1[p++] = u.parts[0]; argv1[p++] = u.parts[1]; break; } case VALUE_TYPE_F32: { float32 f32 = strtof(argv[i], &endptr); if (isnan(f32)) { #ifdef _MSC_VER /* * Spec tests require the binary representation of NaN to be * 0x7fc00000 for float and 0x7ff8000000000000 for float; * however, in MSVC compiler, strtof doesn't return this * exact value, causing some of the spec test failures. We * use the value returned by nan/nanf as it is the one * expected by spec tests. * */ f32 = nanf(""); #endif if (argv[i][0] == '-') { union ieee754_float u; u.f = f32; if (is_little_endian()) u.ieee.ieee_little_endian.negative = 1; else u.ieee.ieee_big_endian.negative = 1; bh_memcpy_s(&f32, sizeof(float), &u.f, sizeof(float)); } if (endptr[0] == ':') { uint32 sig; union ieee754_float u; sig = (uint32)strtoul(endptr + 1, &endptr, 0); u.f = f32; if (is_little_endian()) u.ieee.ieee_little_endian.mantissa = sig; else u.ieee.ieee_big_endian.mantissa = sig; bh_memcpy_s(&f32, sizeof(float), &u.f, sizeof(float)); } } bh_memcpy_s(&argv1[p], (uint32)total_size - p, &f32, (uint32)sizeof(float)); p++; break; } case VALUE_TYPE_F64: { union { float64 val; uint32 parts[2]; } u; u.val = strtod(argv[i], &endptr); if (isnan(u.val)) { #ifdef _MSC_VER u.val = nan(""); #endif if (argv[i][0] == '-') { union ieee754_double ud; ud.d = u.val; if (is_little_endian()) ud.ieee.ieee_little_endian.negative = 1; else ud.ieee.ieee_big_endian.negative = 1; bh_memcpy_s(&u.val, sizeof(double), &ud.d, sizeof(double)); } if (endptr[0] == ':') { uint64 sig; union ieee754_double ud; sig = strtoull(endptr + 1, &endptr, 0); ud.d = u.val; if (is_little_endian()) { ud.ieee.ieee_little_endian.mantissa0 = sig >> 32; ud.ieee.ieee_little_endian.mantissa1 = (uint32)sig; } else { ud.ieee.ieee_big_endian.mantissa0 = sig >> 32; ud.ieee.ieee_big_endian.mantissa1 = (uint32)sig; } bh_memcpy_s(&u.val, sizeof(double), &ud.d, sizeof(double)); } } argv1[p++] = u.parts[0]; argv1[p++] = u.parts[1]; break; } #if WASM_ENABLE_SIMD != 0 case VALUE_TYPE_V128: { /* it likes 0x123\0x234 or 123\234 */ /* retrieve first i64 */ *(uint64 *)(argv1 + p) = strtoull(argv[i], &endptr, 0); /* skip \ */ endptr++; /* retrieve second i64 */ *(uint64 *)(argv1 + p + 2) = strtoull(endptr, &endptr, 0); p += 4; break; } #endif /* WASM_ENABLE_SIMD != 0 */ #if WASM_ENABLE_GC == 0 && WASM_ENABLE_REF_TYPES != 0 case VALUE_TYPE_FUNCREF: #if UINTPTR_MAX == UINT32_MAX case VALUE_TYPE_EXTERNREF: #endif { if (strncasecmp(argv[i], "null", 4) == 0) { argv1[p++] = (uint32)-1; } else { argv1[p++] = (uint32)strtoul(argv[i], &endptr, 0); } break; } #if UINTPTR_MAX == UINT64_MAX case VALUE_TYPE_EXTERNREF: { union { uintptr_t val; uint32 parts[2]; } u; if (strncasecmp(argv[i], "null", 4) == 0) { u.val = (uintptr_t)-1LL; } else { u.val = strtoull(argv[i], &endptr, 0); } argv1[p++] = u.parts[0]; argv1[p++] = u.parts[1]; break; } #endif #endif /* WASM_ENABLE_GC == 0 && WASM_ENABLE_REF_TYPES != 0 */ default: { #if WASM_ENABLE_GC != 0 bool is_extern_ref = false; bool is_anyref = false; if (wasm_is_type_reftype(type->types[i])) { if (strncasecmp(argv[i], "null", 4) == 0) { PUT_REF_TO_ADDR(argv1 + p, NULL_REF); p += REF_CELL_NUM; break; } else if (type->types[i] == VALUE_TYPE_EXTERNREF) { is_extern_ref = true; } else if (type->types[i] == VALUE_TYPE_ANYREF) { is_anyref = true; } if (wasm_is_type_multi_byte_type(type->types[i])) { WASMRefType *ref_type = ref_type_map->ref_type; if (wasm_is_refheaptype_common( &ref_type->ref_ht_common)) { int32 heap_type = ref_type->ref_ht_common.heap_type; if (heap_type == HEAP_TYPE_EXTERN) { is_extern_ref = true; } else if (heap_type == HEAP_TYPE_ANY) { is_anyref = true; } } ref_type_map++; } if (is_extern_ref) { WASMExternrefObjectRef gc_obj; void *extern_obj = (void *)(uintptr_t)strtoull(argv[i], &endptr, 0); gc_obj = wasm_externref_obj_new(exec_env, extern_obj); if (!gc_obj) { wasm_runtime_set_exception( module_inst, "create extern object failed"); goto fail; } if (!(local_ref = runtime_malloc(sizeof(WASMLocalObjectRef), module_inst, NULL, 0))) { goto fail; } wasm_runtime_push_local_obj_ref(exec_env, local_ref); local_ref->val = (WASMObjectRef)gc_obj; num_local_ref_pushed++; PUT_REF_TO_ADDR(argv1 + p, gc_obj); p += REF_CELL_NUM; } else if (is_anyref) { /* If a parameter type is (ref null? any) and its value * is not null, then we treat the value as host ptr */ WASMAnyrefObjectRef gc_obj; void *host_obj = (void *)(uintptr_t)strtoull(argv[i], &endptr, 0); gc_obj = wasm_anyref_obj_new(exec_env, host_obj); if (!gc_obj) { wasm_runtime_set_exception( module_inst, "create anyref object failed"); goto fail; } if (!(local_ref = runtime_malloc(sizeof(WASMLocalObjectRef), module_inst, NULL, 0))) { goto fail; } wasm_runtime_push_local_obj_ref(exec_env, local_ref); local_ref->val = (WASMObjectRef)gc_obj; num_local_ref_pushed++; PUT_REF_TO_ADDR(argv1 + p, gc_obj); p += REF_CELL_NUM; } break; } #endif /* end of WASM_ENABLE_GC != 0 */ bh_assert(0); break; } } if (endptr && *endptr != '\0' && *endptr != '_') { snprintf(buf, sizeof(buf), "invalid input argument %" PRId32 ": %s", i, argv[i]); wasm_runtime_set_exception(module_inst, buf); goto fail; } } wasm_runtime_set_exception(module_inst, NULL); #if WASM_ENABLE_REF_TYPES == 0 && WASM_ENABLE_GC == 0 bh_assert(p == (int32)argc1); #endif if (!wasm_runtime_call_wasm(exec_env, target_func, argc1, argv1)) { goto fail; } #if WASM_ENABLE_GC != 0 ref_type_map = type->result_ref_type_maps; #endif /* print return value */ for (j = 0; j < type->result_count; j++) { switch (type->types[type->param_count + j]) { case VALUE_TYPE_I32: { os_printf("0x%" PRIx32 ":i32", argv1[k]); k++; break; } case VALUE_TYPE_I64: { union { uint64 val; uint32 parts[2]; } u; u.parts[0] = argv1[k]; u.parts[1] = argv1[k + 1]; k += 2; os_printf("0x%" PRIx64 ":i64", u.val); break; } case VALUE_TYPE_F32: { os_printf("%.7g:f32", *(float32 *)(argv1 + k)); k++; break; } case VALUE_TYPE_F64: { union { float64 val; uint32 parts[2]; } u; u.parts[0] = argv1[k]; u.parts[1] = argv1[k + 1]; k += 2; os_printf("%.7g:f64", u.val); break; } #if WASM_ENABLE_GC == 0 && WASM_ENABLE_REF_TYPES != 0 case VALUE_TYPE_FUNCREF: { if (argv1[k] != NULL_REF) os_printf("%" PRIu32 ":ref.func", argv1[k]); else os_printf("func:ref.null"); k++; break; } case VALUE_TYPE_EXTERNREF: { #if UINTPTR_MAX == UINT32_MAX if (argv1[k] != 0 && argv1[k] != (uint32)-1) os_printf("0x%" PRIxPTR ":ref.extern", (uintptr_t)argv1[k]); else os_printf("extern:ref.null"); k++; #else union { uintptr_t val; uint32 parts[2]; } u; u.parts[0] = argv1[k]; u.parts[1] = argv1[k + 1]; k += 2; if (u.val && u.val != (uintptr_t)-1LL) os_printf("0x%" PRIxPTR ":ref.extern", u.val); else os_printf("extern:ref.null"); #endif break; } #endif /* end of WASM_ENABLE_GC == 0 && WASM_ENABLE_REF_TYPES != 0 */ #if WASM_ENABLE_SIMD != 0 case VALUE_TYPE_V128: { uint64 *v = (uint64 *)(argv1 + k); os_printf("<0x%016" PRIx64 " 0x%016" PRIx64 ">:v128", *v, *(v + 1)); k += 4; break; } #endif /* WASM_ENABLE_SIMD != 0 */ default: { #if WASM_ENABLE_GC != 0 if (wasm_is_type_reftype(type->types[type->param_count + j])) { void *gc_obj = GET_REF_FROM_ADDR(argv1 + k); k += REF_CELL_NUM; if (!gc_obj) { uint8 type1 = type->types[type->param_count + j]; WASMRefType *ref_type1 = NULL; WASMType **types = NULL; uint32 type_count = 0; if (wasm_is_type_multi_byte_type( type->types[type->param_count + j])) ref_type1 = ref_type_map->ref_type; #if WASM_ENABLE_INTERP != 0 if (module_inst->module_type == Wasm_Module_Bytecode) { WASMModule *module = ((WASMModuleInstance *)module_inst)->module; types = module->types; type_count = module->type_count; } #endif #if WASM_ENABLE_AOT != 0 if (module_inst->module_type == Wasm_Module_AoT) { AOTModule *module = (AOTModule *)((AOTModuleInstance *)module_inst) ->module; types = module->types; type_count = module->type_count; } #endif bh_assert(type); if (wasm_reftype_is_subtype_of(type1, ref_type1, REF_TYPE_ANYREF, NULL, types, type_count)) os_printf("any:"); else if (wasm_reftype_is_subtype_of( type1, ref_type1, REF_TYPE_FUNCREF, NULL, types, type_count)) os_printf("func:"); if (wasm_reftype_is_subtype_of(type1, ref_type1, REF_TYPE_EXTERNREF, NULL, types, type_count)) os_printf("extern:"); os_printf("ref.null"); } else if (wasm_obj_is_func_obj(gc_obj)) os_printf("ref.func"); #if WASM_ENABLE_STRINGREF != 0 else if (wasm_obj_is_stringref_obj(gc_obj) || wasm_obj_is_stringview_wtf8_obj(gc_obj)) { wasm_string_dump( (WASMString)wasm_stringref_obj_get_value(gc_obj)); } else if (wasm_obj_is_stringview_wtf16_obj(gc_obj)) { wasm_string_dump( (WASMString)wasm_stringview_wtf16_obj_get_value( gc_obj)); } #endif else if (wasm_obj_is_externref_obj(gc_obj)) { #if WASM_ENABLE_SPEC_TEST != 0 WASMObjectRef obj = wasm_externref_obj_to_internal_obj( (WASMExternrefObjectRef)gc_obj); if (wasm_obj_is_anyref_obj(obj)) os_printf("0x%" PRIxPTR ":ref.extern", (uintptr_t)wasm_anyref_obj_get_value( (WASMAnyrefObjectRef)obj)); else #endif os_printf("ref.extern"); } else if (wasm_obj_is_i31_obj(gc_obj)) os_printf("ref.i31"); else if (wasm_obj_is_array_obj(gc_obj)) os_printf("ref.array"); else if (wasm_obj_is_struct_obj(gc_obj)) os_printf("ref.struct"); else if (wasm_obj_is_eq_obj(gc_obj)) os_printf("ref.eq"); else if (wasm_obj_is_anyref_obj(gc_obj)) os_printf("0x%" PRIxPTR ":ref.host", (uintptr_t)wasm_anyref_obj_get_value( (WASMAnyrefObjectRef)gc_obj)); else if (wasm_obj_is_internal_obj(gc_obj)) os_printf("ref.any"); if (wasm_is_type_multi_byte_type( type->types[type->param_count + j])) ref_type_map++; break; } #endif /* endof WASM_ENABLE_GC != 0 */ bh_assert(0); break; } } if (j < (uint32)(type->result_count - 1)) os_printf(","); } os_printf("\n"); #if WASM_ENABLE_GC != 0 for (j = 0; j < num_local_ref_pushed; j++) { local_ref = wasm_runtime_pop_local_obj_ref(exec_env); wasm_runtime_free(local_ref); } #endif wasm_runtime_free(argv1); return true; fail: if (argv1) wasm_runtime_free(argv1); #if WASM_ENABLE_GC != 0 for (j = 0; j < num_local_ref_pushed; j++) { local_ref = wasm_runtime_pop_local_obj_ref(exec_env); wasm_runtime_free(local_ref); } #endif bh_assert(wasm_runtime_get_exception(module_inst)); return false; } bool wasm_application_execute_func(WASMModuleInstanceCommon *module_inst, const char *name, int32 argc, char *argv[]) { bool ret; #if WASM_ENABLE_MEMORY_PROFILING != 0 WASMExecEnv *exec_env; #endif ret = execute_func(module_inst, name, argc, argv); #if WASM_ENABLE_MEMORY_PROFILING != 0 exec_env = wasm_runtime_get_exec_env_singleton(module_inst); if (exec_env) { wasm_runtime_dump_mem_consumption(exec_env); } #endif #if WASM_ENABLE_GC_PERF_PROFILING != 0 void *handle = wasm_runtime_get_gc_heap_handle(module_inst); mem_allocator_dump_perf_profiling(handle); #endif #if WASM_ENABLE_PERF_PROFILING != 0 wasm_runtime_dump_perf_profiling(module_inst); #endif return (ret && !wasm_runtime_get_exception(module_inst)) ? true : false; }