/* * Copyright (C) 2019 Intel Corporation. All rights reserved. * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception */ #include "thread_manager.h" #include "../common/wasm_c_api_internal.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_DEBUG_INTERP != 0 #include "debug_engine.h" #endif typedef struct { bh_list_link l; void (*destroy_cb)(WASMCluster *); } DestroyCallBackNode; static bh_list destroy_callback_list_head; static bh_list *const destroy_callback_list = &destroy_callback_list_head; static bh_list cluster_list_head; static bh_list *const cluster_list = &cluster_list_head; static korp_mutex cluster_list_lock; static korp_mutex _exception_lock; typedef void (*list_visitor)(void *, void *); static uint32 cluster_max_thread_num = CLUSTER_MAX_THREAD_NUM; /* Set the maximum thread number, if this function is not called, the max thread num is defined by CLUSTER_MAX_THREAD_NUM */ void wasm_cluster_set_max_thread_num(uint32 num) { if (num > 0) cluster_max_thread_num = num; } bool thread_manager_init() { if (bh_list_init(cluster_list) != 0) return false; if (os_mutex_init(&cluster_list_lock) != 0) return false; if (os_mutex_init(&_exception_lock) != 0) { os_mutex_destroy(&cluster_list_lock); return false; } return true; } void thread_manager_destroy() { WASMCluster *cluster = bh_list_first_elem(cluster_list); WASMCluster *next; while (cluster) { next = bh_list_elem_next(cluster); wasm_cluster_destroy(cluster); cluster = next; } wasm_cluster_cancel_all_callbacks(); os_mutex_destroy(&_exception_lock); os_mutex_destroy(&cluster_list_lock); } static void traverse_list(bh_list *l, list_visitor visitor, void *user_data) { void *next, *node = bh_list_first_elem(l); while (node) { next = bh_list_elem_next(node); visitor(node, user_data); node = next; } } /* Assumes cluster->lock is locked */ static bool safe_traverse_exec_env_list(WASMCluster *cluster, list_visitor visitor, void *user_data) { Vector proc_nodes; void *node; bool ret = true; if (!bh_vector_init(&proc_nodes, cluster->exec_env_list.len, sizeof(void *), false)) { ret = false; goto final; } node = bh_list_first_elem(&cluster->exec_env_list); while (node) { bool already_processed = false; void *proc_node; uint32 i; for (i = 0; i < (uint32)bh_vector_size(&proc_nodes); i++) { if (!bh_vector_get(&proc_nodes, i, &proc_node)) { ret = false; goto final; } if (proc_node == node) { already_processed = true; break; } } if (already_processed) { node = bh_list_elem_next(node); continue; } os_mutex_unlock(&cluster->lock); visitor(node, user_data); os_mutex_lock(&cluster->lock); if (!bh_vector_append(&proc_nodes, &node)) { ret = false; goto final; } node = bh_list_first_elem(&cluster->exec_env_list); } final: bh_vector_destroy(&proc_nodes); return ret; } /* The caller must not have any locks */ bool wasm_cluster_allocate_aux_stack(WASMExecEnv *exec_env, uint64 *p_start, uint32 *p_size) { WASMCluster *cluster = wasm_exec_env_get_cluster(exec_env); #if WASM_ENABLE_HEAP_AUX_STACK_ALLOCATION != 0 WASMModuleInstanceCommon *module_inst = wasm_exec_env_get_module_inst(exec_env); uint64 stack_end; stack_end = wasm_runtime_module_malloc_internal(module_inst, exec_env, cluster->stack_size, NULL); *p_start = stack_end + cluster->stack_size; *p_size = cluster->stack_size; return stack_end != 0; #else uint32 i; /* If the module doesn't have aux stack info, it can't create any threads */ os_mutex_lock(&cluster->lock); if (!cluster->stack_segment_occupied) { os_mutex_unlock(&cluster->lock); return false; } for (i = 0; i < cluster_max_thread_num; i++) { if (!cluster->stack_segment_occupied[i]) { if (p_start) *p_start = cluster->stack_tops[i]; if (p_size) *p_size = cluster->stack_size; cluster->stack_segment_occupied[i] = true; os_mutex_unlock(&cluster->lock); return true; } } os_mutex_unlock(&cluster->lock); return false; #endif } /* The caller must not have any locks */ bool wasm_cluster_free_aux_stack(WASMExecEnv *exec_env, uint64 start) { WASMCluster *cluster = wasm_exec_env_get_cluster(exec_env); #if WASM_ENABLE_HEAP_AUX_STACK_ALLOCATION != 0 WASMModuleInstanceCommon *module_inst = wasm_exec_env_get_module_inst(exec_env); if (!wasm_exec_env_is_aux_stack_managed_by_runtime(exec_env)) { return true; } bh_assert(start >= cluster->stack_size); wasm_runtime_module_free_internal(module_inst, exec_env, start - cluster->stack_size); return true; #else uint32 i; os_mutex_lock(&cluster->lock); for (i = 0; i < cluster_max_thread_num; i++) { if (start == cluster->stack_tops[i]) { cluster->stack_segment_occupied[i] = false; os_mutex_unlock(&cluster->lock); return true; } } os_mutex_unlock(&cluster->lock); return false; #endif } WASMCluster * wasm_cluster_create(WASMExecEnv *exec_env) { WASMCluster *cluster; uint32 aux_stack_size; uint64 aux_stack_start; bh_assert(exec_env->cluster == NULL); if (!(cluster = wasm_runtime_malloc(sizeof(WASMCluster)))) { LOG_ERROR("thread manager error: failed to allocate memory"); return NULL; } memset(cluster, 0, sizeof(WASMCluster)); exec_env->cluster = cluster; bh_list_init(&cluster->exec_env_list); bh_list_insert(&cluster->exec_env_list, exec_env); if (os_mutex_init(&cluster->lock) != 0) { wasm_runtime_free(cluster); LOG_ERROR("thread manager error: failed to init mutex"); return NULL; } /* Prepare the aux stack top and size for every thread */ if (!wasm_exec_env_get_aux_stack(exec_env, &aux_stack_start, &aux_stack_size)) { #if WASM_ENABLE_LIB_WASI_THREADS == 0 LOG_VERBOSE("No aux stack info for this module, can't create thread"); #endif /* If the module don't have aux stack info, don't throw error here, but remain stack_tops and stack_segment_occupied as NULL */ os_mutex_lock(&cluster_list_lock); if (bh_list_insert(cluster_list, cluster) != 0) { os_mutex_unlock(&cluster_list_lock); goto fail; } os_mutex_unlock(&cluster_list_lock); return cluster; } #if WASM_ENABLE_HEAP_AUX_STACK_ALLOCATION != 0 cluster->stack_size = aux_stack_size; #else cluster->stack_size = aux_stack_size / (cluster_max_thread_num + 1); if (cluster->stack_size < WASM_THREAD_AUX_STACK_SIZE_MIN) { goto fail; } /* Make stack size 16-byte aligned */ cluster->stack_size = cluster->stack_size & (~15); #endif /* Set initial aux stack top to the instance and aux stack boundary to the main exec_env */ if (!wasm_exec_env_set_aux_stack(exec_env, aux_stack_start, cluster->stack_size)) goto fail; #if WASM_ENABLE_HEAP_AUX_STACK_ALLOCATION == 0 if (cluster_max_thread_num != 0) { uint64 total_size = cluster_max_thread_num * sizeof(uint64); uint32 i; if (total_size >= UINT32_MAX || !(cluster->stack_tops = wasm_runtime_malloc((uint32)total_size))) { goto fail; } memset(cluster->stack_tops, 0, (uint32)total_size); if (!(cluster->stack_segment_occupied = wasm_runtime_malloc(cluster_max_thread_num * sizeof(bool)))) { goto fail; } memset(cluster->stack_segment_occupied, 0, cluster_max_thread_num * sizeof(bool)); /* Reserve space for main instance */ aux_stack_start -= cluster->stack_size; for (i = 0; i < cluster_max_thread_num; i++) { cluster->stack_tops[i] = aux_stack_start - cluster->stack_size * i; } } #endif os_mutex_lock(&cluster_list_lock); if (bh_list_insert(cluster_list, cluster) != 0) { os_mutex_unlock(&cluster_list_lock); goto fail; } os_mutex_unlock(&cluster_list_lock); return cluster; fail: if (cluster) wasm_cluster_destroy(cluster); return NULL; } static void destroy_cluster_visitor(void *node, void *user_data) { DestroyCallBackNode *destroy_node = (DestroyCallBackNode *)node; WASMCluster *cluster = (WASMCluster *)user_data; destroy_node->destroy_cb(cluster); } void wasm_cluster_destroy(WASMCluster *cluster) { traverse_list(destroy_callback_list, destroy_cluster_visitor, (void *)cluster); /* Remove the cluster from the cluster list */ os_mutex_lock(&cluster_list_lock); bh_list_remove(cluster_list, cluster); os_mutex_unlock(&cluster_list_lock); os_mutex_destroy(&cluster->lock); #if WASM_ENABLE_HEAP_AUX_STACK_ALLOCATION == 0 if (cluster->stack_tops) wasm_runtime_free(cluster->stack_tops); if (cluster->stack_segment_occupied) wasm_runtime_free(cluster->stack_segment_occupied); #endif #if WASM_ENABLE_DEBUG_INTERP != 0 wasm_debug_instance_destroy(cluster); #endif #if WASM_ENABLE_DUMP_CALL_STACK != 0 bh_vector_destroy(&cluster->exception_frames); #endif wasm_runtime_free(cluster); } static void free_node_visitor(void *node, void *user_data) { wasm_runtime_free(node); } void wasm_cluster_cancel_all_callbacks() { traverse_list(destroy_callback_list, free_node_visitor, NULL); bh_list_init(destroy_callback_list); } WASMCluster * wasm_exec_env_get_cluster(WASMExecEnv *exec_env) { return exec_env->cluster; } /* The caller must lock cluster->lock */ static bool wasm_cluster_add_exec_env(WASMCluster *cluster, WASMExecEnv *exec_env) { bool ret = true; exec_env->cluster = cluster; if (cluster->exec_env_list.len == cluster_max_thread_num + 1) { LOG_ERROR("thread manager error: " "maximum number of threads exceeded"); ret = false; } if (ret && bh_list_insert(&cluster->exec_env_list, exec_env) != 0) ret = false; return ret; } static bool wasm_cluster_del_exec_env_internal(WASMCluster *cluster, WASMExecEnv *exec_env, bool can_destroy_cluster) { bool ret = true; bh_assert(exec_env->cluster == cluster); #if WASM_ENABLE_DEBUG_INTERP != 0 /* Wait for debugger control thread to process the stop event of this thread */ if (cluster->debug_inst) { /* lock the debug_inst->wait_lock so other threads can't fire stop events */ os_mutex_lock(&cluster->debug_inst->wait_lock); while (cluster->debug_inst->stopped_thread == exec_env) { /* either wakes up by signal or by 1-second timeout */ os_cond_reltimedwait(&cluster->debug_inst->wait_cond, &cluster->debug_inst->wait_lock, 1000000); } os_mutex_unlock(&cluster->debug_inst->wait_lock); } #endif if (bh_list_remove(&cluster->exec_env_list, exec_env) != 0) ret = false; if (can_destroy_cluster) { if (cluster->exec_env_list.len == 0) { /* exec_env_list empty, destroy the cluster */ wasm_cluster_destroy(cluster); } } else { /* Don't destroy cluster as cluster->lock is being used */ } return ret; } /* The caller should lock cluster->lock for thread safety */ bool wasm_cluster_del_exec_env(WASMCluster *cluster, WASMExecEnv *exec_env) { return wasm_cluster_del_exec_env_internal(cluster, exec_env, true); } static WASMExecEnv * wasm_cluster_search_exec_env(WASMCluster *cluster, WASMModuleInstanceCommon *module_inst) { WASMExecEnv *node = NULL; os_mutex_lock(&cluster->lock); node = bh_list_first_elem(&cluster->exec_env_list); while (node) { if (node->module_inst == module_inst) { os_mutex_unlock(&cluster->lock); return node; } node = bh_list_elem_next(node); } os_mutex_unlock(&cluster->lock); return NULL; } /* search the global cluster list to find if the given module instance have a corresponding exec_env */ WASMExecEnv * wasm_clusters_search_exec_env(WASMModuleInstanceCommon *module_inst) { WASMCluster *cluster = NULL; WASMExecEnv *exec_env = NULL; os_mutex_lock(&cluster_list_lock); cluster = bh_list_first_elem(cluster_list); while (cluster) { exec_env = wasm_cluster_search_exec_env(cluster, module_inst); if (exec_env) { os_mutex_unlock(&cluster_list_lock); return exec_env; } cluster = bh_list_elem_next(cluster); } os_mutex_unlock(&cluster_list_lock); return NULL; } WASMExecEnv * wasm_cluster_spawn_exec_env(WASMExecEnv *exec_env) { WASMCluster *cluster = wasm_exec_env_get_cluster(exec_env); wasm_module_inst_t module_inst = get_module_inst(exec_env); wasm_module_t module; wasm_module_inst_t new_module_inst; WASMExecEnv *new_exec_env; uint32 aux_stack_size; uint64 aux_stack_start; uint32 stack_size = 8192; if (!module_inst || !(module = wasm_exec_env_get_module(exec_env))) { return NULL; } if (!(new_module_inst = wasm_runtime_instantiate_internal( module, module_inst, exec_env, stack_size, 0, 0, NULL, 0))) { return NULL; } /* Set custom_data to new module instance */ wasm_runtime_set_custom_data_internal( new_module_inst, wasm_runtime_get_custom_data(module_inst)); wasm_native_inherit_contexts(new_module_inst, module_inst); if (!(wasm_cluster_dup_c_api_imports(new_module_inst, module_inst))) { goto fail1; } if (!wasm_cluster_allocate_aux_stack(exec_env, &aux_stack_start, &aux_stack_size)) { LOG_ERROR("thread manager error: " "failed to allocate aux stack space for new thread"); goto fail1; } os_mutex_lock(&cluster->lock); if (cluster->has_exception || cluster->processing) { goto fail2; } #if WASM_ENABLE_INTERP != 0 if (module_inst->module_type == Wasm_Module_Bytecode) { stack_size = ((WASMModuleInstance *)module_inst)->default_wasm_stack_size; } #endif #if WASM_ENABLE_AOT != 0 if (module_inst->module_type == Wasm_Module_AoT) { stack_size = ((AOTModuleInstance *)module_inst)->default_wasm_stack_size; } #endif new_exec_env = wasm_exec_env_create_internal(new_module_inst, exec_env->wasm_stack_size); if (!new_exec_env) { goto fail2; } /* Set aux stack for current thread */ if (!wasm_exec_env_set_aux_stack(new_exec_env, aux_stack_start, aux_stack_size)) { goto fail3; } new_exec_env->is_aux_stack_allocated = true; /* Inherit suspend_flags of parent thread */ new_exec_env->suspend_flags.flags = (exec_env->suspend_flags.flags & WASM_SUSPEND_FLAG_INHERIT_MASK); if (!wasm_cluster_add_exec_env(cluster, new_exec_env)) { goto fail3; } os_mutex_unlock(&cluster->lock); return new_exec_env; fail3: wasm_exec_env_destroy_internal(new_exec_env); fail2: os_mutex_unlock(&cluster->lock); /* free the allocated aux stack space */ wasm_cluster_free_aux_stack(exec_env, aux_stack_start); fail1: wasm_runtime_deinstantiate_internal(new_module_inst, true); return NULL; } void wasm_cluster_destroy_spawned_exec_env(WASMExecEnv *exec_env) { WASMCluster *cluster = wasm_exec_env_get_cluster(exec_env); wasm_module_inst_t module_inst = wasm_runtime_get_module_inst(exec_env); bh_assert(cluster != NULL); WASMExecEnv *exec_env_tls = NULL; #ifdef OS_ENABLE_HW_BOUND_CHECK /* Note: free_aux_stack can execute the module's "free" function * using the specified exec_env. In case of OS_ENABLE_HW_BOUND_CHECK, * it needs to match the TLS exec_env if available. (Consider a native * function which calls wasm_cluster_destroy_spawned_exec_env.) */ exec_env_tls = wasm_runtime_get_exec_env_tls(); #endif if (exec_env_tls == NULL) { exec_env_tls = exec_env; } /* Free aux stack space which was allocated in wasm_cluster_spawn_exec_env */ bh_assert(exec_env_tls->is_aux_stack_allocated); wasm_cluster_free_aux_stack(exec_env_tls, (uint64)exec_env->aux_stack_bottom); os_mutex_lock(&cluster->lock); /* Remove exec_env */ wasm_cluster_del_exec_env_internal(cluster, exec_env, false); /* Destroy exec_env */ wasm_exec_env_destroy_internal(exec_env); /* Routine exit, destroy instance */ wasm_runtime_deinstantiate_internal(module_inst, true); os_mutex_unlock(&cluster->lock); } /* start routine of thread manager */ static void * thread_manager_start_routine(void *arg) { void *ret; WASMExecEnv *exec_env = (WASMExecEnv *)arg; WASMCluster *cluster = wasm_exec_env_get_cluster(exec_env); WASMModuleInstanceCommon *module_inst = wasm_exec_env_get_module_inst(exec_env); bh_assert(cluster != NULL); bh_assert(module_inst != NULL); os_mutex_lock(&exec_env->wait_lock); exec_env->handle = os_self_thread(); /* Notify the parent thread to continue running */ os_cond_signal(&exec_env->wait_cond); os_mutex_unlock(&exec_env->wait_lock); ret = exec_env->thread_start_routine(exec_env); #ifdef OS_ENABLE_HW_BOUND_CHECK os_mutex_lock(&exec_env->wait_lock); if (WASM_SUSPEND_FLAGS_GET(exec_env->suspend_flags) & WASM_SUSPEND_FLAG_EXIT) ret = exec_env->thread_ret_value; os_mutex_unlock(&exec_env->wait_lock); #endif /* Routine exit */ #if WASM_ENABLE_DEBUG_INTERP != 0 wasm_cluster_thread_exited(exec_env); #endif /* Free aux stack space */ if (exec_env->is_aux_stack_allocated) wasm_cluster_free_aux_stack(exec_env, (uint64)exec_env->aux_stack_bottom); os_mutex_lock(&cluster_list_lock); os_mutex_lock(&cluster->lock); /* Detach the native thread here to ensure the resources are freed */ if (exec_env->wait_count == 0 && !exec_env->thread_is_detached) { /* Only detach current thread when there is no other thread joining it, otherwise let the system resources for the thread be released after joining */ os_thread_detach(exec_env->handle); /* No need to set exec_env->thread_is_detached to true here since we will exit soon */ } #if WASM_ENABLE_PERF_PROFILING != 0 os_printf("============= Spawned thread ===========\n"); wasm_runtime_dump_perf_profiling(module_inst); os_printf("========================================\n"); #endif /* Remove exec_env */ wasm_cluster_del_exec_env_internal(cluster, exec_env, false); /* Destroy exec_env */ wasm_exec_env_destroy_internal(exec_env); /* Routine exit, destroy instance */ wasm_runtime_deinstantiate_internal(module_inst, true); os_mutex_unlock(&cluster->lock); os_mutex_unlock(&cluster_list_lock); os_thread_exit(ret); return ret; } int32 wasm_cluster_create_thread(WASMExecEnv *exec_env, wasm_module_inst_t module_inst, bool is_aux_stack_allocated, uint64 aux_stack_start, uint32 aux_stack_size, void *(*thread_routine)(void *), void *arg) { WASMCluster *cluster; WASMExecEnv *new_exec_env; korp_tid tid; cluster = wasm_exec_env_get_cluster(exec_env); bh_assert(cluster); os_mutex_lock(&cluster->lock); if (cluster->has_exception || cluster->processing) { goto fail1; } new_exec_env = wasm_exec_env_create_internal(module_inst, exec_env->wasm_stack_size); if (!new_exec_env) goto fail1; if (is_aux_stack_allocated) { /* Set aux stack for current thread */ if (!wasm_exec_env_set_aux_stack(new_exec_env, aux_stack_start, aux_stack_size)) { goto fail2; } new_exec_env->is_aux_stack_allocated = true; } else { /* Disable aux stack */ new_exec_env->aux_stack_boundary = 0; new_exec_env->aux_stack_bottom = UINTPTR_MAX; new_exec_env->is_aux_stack_allocated = false; } /* Inherit suspend_flags of parent thread */ new_exec_env->suspend_flags.flags = (exec_env->suspend_flags.flags & WASM_SUSPEND_FLAG_INHERIT_MASK); if (!wasm_cluster_add_exec_env(cluster, new_exec_env)) goto fail2; new_exec_env->thread_start_routine = thread_routine; new_exec_env->thread_arg = arg; os_mutex_lock(&new_exec_env->wait_lock); if (0 != os_thread_create(&tid, thread_manager_start_routine, (void *)new_exec_env, APP_THREAD_STACK_SIZE_DEFAULT)) { os_mutex_unlock(&new_exec_env->wait_lock); goto fail3; } /* Wait until the new_exec_env->handle is set to avoid it is illegally accessed after unlocking cluster->lock */ os_cond_wait(&new_exec_env->wait_cond, &new_exec_env->wait_lock); os_mutex_unlock(&new_exec_env->wait_lock); os_mutex_unlock(&cluster->lock); return 0; fail3: wasm_cluster_del_exec_env_internal(cluster, new_exec_env, false); fail2: wasm_exec_env_destroy_internal(new_exec_env); fail1: os_mutex_unlock(&cluster->lock); return -1; } bool wasm_cluster_dup_c_api_imports(WASMModuleInstanceCommon *module_inst_dst, const WASMModuleInstanceCommon *module_inst_src) { /* workaround about passing instantiate-linking information */ CApiFuncImport **new_c_api_func_imports = NULL; CApiFuncImport *c_api_func_imports = NULL; uint32 import_func_count = 0; uint32 size_in_bytes = 0; #if WASM_ENABLE_INTERP != 0 if (module_inst_src->module_type == Wasm_Module_Bytecode) { new_c_api_func_imports = &(((WASMModuleInstance *)module_inst_dst)->c_api_func_imports); c_api_func_imports = ((const WASMModuleInstance *)module_inst_src)->c_api_func_imports; import_func_count = ((WASMModule *)(((const WASMModuleInstance *)module_inst_src) ->module)) ->import_function_count; } #endif #if WASM_ENABLE_AOT != 0 if (module_inst_src->module_type == Wasm_Module_AoT) { new_c_api_func_imports = &(((AOTModuleInstance *)module_inst_dst)->c_api_func_imports); c_api_func_imports = ((const AOTModuleInstance *)module_inst_src)->c_api_func_imports; import_func_count = ((AOTModule *)(((AOTModuleInstance *)module_inst_src)->module)) ->import_func_count; } #endif if (import_func_count != 0 && c_api_func_imports) { size_in_bytes = sizeof(CApiFuncImport) * import_func_count; *new_c_api_func_imports = wasm_runtime_malloc(size_in_bytes); if (!(*new_c_api_func_imports)) return false; bh_memcpy_s(*new_c_api_func_imports, size_in_bytes, c_api_func_imports, size_in_bytes); } return true; } #if WASM_ENABLE_DEBUG_INTERP != 0 WASMCurrentEnvStatus * wasm_cluster_create_exenv_status() { WASMCurrentEnvStatus *status; if (!(status = wasm_runtime_malloc(sizeof(WASMCurrentEnvStatus)))) { return NULL; } status->step_count = 0; status->signal_flag = 0; status->running_status = 0; return status; } void wasm_cluster_destroy_exenv_status(WASMCurrentEnvStatus *status) { wasm_runtime_free(status); } inline static bool wasm_cluster_thread_is_running(WASMExecEnv *exec_env) { return exec_env->current_status->running_status == STATUS_RUNNING || exec_env->current_status->running_status == STATUS_STEP; } void wasm_cluster_clear_thread_signal(WASMExecEnv *exec_env) { exec_env->current_status->signal_flag = 0; } void wasm_cluster_thread_send_signal(WASMExecEnv *exec_env, uint32 signo) { exec_env->current_status->signal_flag = signo; } static void notify_debug_instance(WASMExecEnv *exec_env) { WASMCluster *cluster; cluster = wasm_exec_env_get_cluster(exec_env); bh_assert(cluster); if (!cluster->debug_inst) { return; } on_thread_stop_event(cluster->debug_inst, exec_env); } static void notify_debug_instance_exit(WASMExecEnv *exec_env) { WASMCluster *cluster; cluster = wasm_exec_env_get_cluster(exec_env); bh_assert(cluster); if (!cluster->debug_inst) { return; } on_thread_exit_event(cluster->debug_inst, exec_env); } void wasm_cluster_thread_waiting_run(WASMExecEnv *exec_env) { exec_env->current_status->running_status = STATUS_STOP; notify_debug_instance(exec_env); while (!wasm_cluster_thread_is_running(exec_env)) { os_cond_wait(&exec_env->wait_cond, &exec_env->wait_lock); } } void wasm_cluster_send_signal_all(WASMCluster *cluster, uint32 signo) { WASMExecEnv *exec_env = bh_list_first_elem(&cluster->exec_env_list); while (exec_env) { wasm_cluster_thread_send_signal(exec_env, signo); exec_env = bh_list_elem_next(exec_env); } } void wasm_cluster_thread_exited(WASMExecEnv *exec_env) { exec_env->current_status->running_status = STATUS_EXIT; notify_debug_instance_exit(exec_env); } void wasm_cluster_thread_continue(WASMExecEnv *exec_env) { os_mutex_lock(&exec_env->wait_lock); wasm_cluster_clear_thread_signal(exec_env); exec_env->current_status->running_status = STATUS_RUNNING; os_cond_signal(&exec_env->wait_cond); os_mutex_unlock(&exec_env->wait_lock); } void wasm_cluster_thread_step(WASMExecEnv *exec_env) { os_mutex_lock(&exec_env->wait_lock); exec_env->current_status->running_status = STATUS_STEP; os_cond_signal(&exec_env->wait_cond); os_mutex_unlock(&exec_env->wait_lock); } void wasm_cluster_set_debug_inst(WASMCluster *cluster, WASMDebugInstance *inst) { cluster->debug_inst = inst; } #endif /* end of WASM_ENABLE_DEBUG_INTERP */ /* Check whether the exec_env is in one of all clusters, the caller should add lock to the cluster list before calling us */ static bool clusters_have_exec_env(WASMExecEnv *exec_env) { WASMCluster *cluster = bh_list_first_elem(cluster_list); WASMExecEnv *node; while (cluster) { os_mutex_lock(&cluster->lock); node = bh_list_first_elem(&cluster->exec_env_list); while (node) { if (node == exec_env) { bh_assert(exec_env->cluster == cluster); os_mutex_unlock(&cluster->lock); return true; } node = bh_list_elem_next(node); } os_mutex_unlock(&cluster->lock); cluster = bh_list_elem_next(cluster); } return false; } int32 wasm_cluster_join_thread(WASMExecEnv *exec_env, void **ret_val) { korp_tid handle; os_mutex_lock(&cluster_list_lock); if (!clusters_have_exec_env(exec_env) || exec_env->thread_is_detached) { /* Invalid thread, thread has exited or thread has been detached */ if (ret_val) *ret_val = NULL; os_mutex_unlock(&cluster_list_lock); return 0; } os_mutex_lock(&exec_env->wait_lock); exec_env->wait_count++; handle = exec_env->handle; os_mutex_unlock(&exec_env->wait_lock); os_mutex_unlock(&cluster_list_lock); return os_thread_join(handle, ret_val); } int32 wasm_cluster_detach_thread(WASMExecEnv *exec_env) { int32 ret = 0; os_mutex_lock(&cluster_list_lock); if (!clusters_have_exec_env(exec_env)) { /* Invalid thread or the thread has exited */ os_mutex_unlock(&cluster_list_lock); return 0; } if (exec_env->wait_count == 0 && !exec_env->thread_is_detached) { /* Only detach current thread when there is no other thread joining it, otherwise let the system resources for the thread be released after joining */ ret = os_thread_detach(exec_env->handle); exec_env->thread_is_detached = true; } os_mutex_unlock(&cluster_list_lock); return ret; } void wasm_cluster_exit_thread(WASMExecEnv *exec_env, void *retval) { WASMCluster *cluster; WASMModuleInstanceCommon *module_inst; #ifdef OS_ENABLE_HW_BOUND_CHECK if (exec_env->jmpbuf_stack_top) { /* Store the return value in exec_env */ exec_env->thread_ret_value = retval; WASM_SUSPEND_FLAGS_FETCH_OR(exec_env->suspend_flags, WASM_SUSPEND_FLAG_EXIT); #ifndef BH_PLATFORM_WINDOWS /* Pop all jmpbuf_node except the last one */ while (exec_env->jmpbuf_stack_top->prev) { wasm_exec_env_pop_jmpbuf(exec_env); } os_longjmp(exec_env->jmpbuf_stack_top->jmpbuf, 1); return; #endif } #endif cluster = wasm_exec_env_get_cluster(exec_env); bh_assert(cluster); #if WASM_ENABLE_DEBUG_INTERP != 0 wasm_cluster_clear_thread_signal(exec_env); wasm_cluster_thread_exited(exec_env); #endif /* Free aux stack space */ if (exec_env->is_aux_stack_allocated) wasm_cluster_free_aux_stack(exec_env, (uint64)exec_env->aux_stack_bottom); /* App exit the thread, free the resources before exit native thread */ os_mutex_lock(&cluster_list_lock); os_mutex_lock(&cluster->lock); /* Detach the native thread here to ensure the resources are freed */ if (exec_env->wait_count == 0 && !exec_env->thread_is_detached) { /* Only detach current thread when there is no other thread joining it, otherwise let the system resources for the thread be released after joining */ os_thread_detach(exec_env->handle); /* No need to set exec_env->thread_is_detached to true here since we will exit soon */ } module_inst = exec_env->module_inst; /* Remove exec_env */ wasm_cluster_del_exec_env_internal(cluster, exec_env, false); /* Destroy exec_env */ wasm_exec_env_destroy_internal(exec_env); /* Routine exit, destroy instance */ wasm_runtime_deinstantiate_internal(module_inst, true); os_mutex_unlock(&cluster->lock); os_mutex_unlock(&cluster_list_lock); os_thread_exit(retval); } static void set_thread_cancel_flags(WASMExecEnv *exec_env) { os_mutex_lock(&exec_env->wait_lock); #if WASM_ENABLE_DEBUG_INTERP != 0 wasm_cluster_thread_send_signal(exec_env, WAMR_SIG_TERM); #endif WASM_SUSPEND_FLAGS_FETCH_OR(exec_env->suspend_flags, WASM_SUSPEND_FLAG_TERMINATE); os_mutex_unlock(&exec_env->wait_lock); #ifdef OS_ENABLE_WAKEUP_BLOCKING_OP wasm_runtime_interrupt_blocking_op(exec_env); #endif } static void clear_thread_cancel_flags(WASMExecEnv *exec_env) { os_mutex_lock(&exec_env->wait_lock); WASM_SUSPEND_FLAGS_FETCH_AND(exec_env->suspend_flags, ~WASM_SUSPEND_FLAG_TERMINATE); os_mutex_unlock(&exec_env->wait_lock); } int32 wasm_cluster_cancel_thread(WASMExecEnv *exec_env) { os_mutex_lock(&cluster_list_lock); if (!exec_env->cluster) { os_mutex_unlock(&cluster_list_lock); return 0; } if (!clusters_have_exec_env(exec_env)) { /* Invalid thread or the thread has exited */ goto final; } set_thread_cancel_flags(exec_env); final: os_mutex_unlock(&cluster_list_lock); return 0; } static void terminate_thread_visitor(void *node, void *user_data) { WASMExecEnv *curr_exec_env = (WASMExecEnv *)node; WASMExecEnv *exec_env = (WASMExecEnv *)user_data; if (curr_exec_env == exec_env) return; wasm_cluster_cancel_thread(curr_exec_env); wasm_cluster_join_thread(curr_exec_env, NULL); } void wasm_cluster_terminate_all(WASMCluster *cluster) { os_mutex_lock(&cluster->lock); cluster->processing = true; safe_traverse_exec_env_list(cluster, terminate_thread_visitor, NULL); cluster->processing = false; os_mutex_unlock(&cluster->lock); } void wasm_cluster_terminate_all_except_self(WASMCluster *cluster, WASMExecEnv *exec_env) { os_mutex_lock(&cluster->lock); cluster->processing = true; safe_traverse_exec_env_list(cluster, terminate_thread_visitor, (void *)exec_env); cluster->processing = false; os_mutex_unlock(&cluster->lock); } static void wait_for_thread_visitor(void *node, void *user_data) { WASMExecEnv *curr_exec_env = (WASMExecEnv *)node; WASMExecEnv *exec_env = (WASMExecEnv *)user_data; if (curr_exec_env == exec_env) return; wasm_cluster_join_thread(curr_exec_env, NULL); } void wasm_cluster_wait_for_all(WASMCluster *cluster) { os_mutex_lock(&cluster->lock); cluster->processing = true; safe_traverse_exec_env_list(cluster, wait_for_thread_visitor, NULL); cluster->processing = false; os_mutex_unlock(&cluster->lock); } void wasm_cluster_wait_for_all_except_self(WASMCluster *cluster, WASMExecEnv *exec_env) { os_mutex_lock(&cluster->lock); cluster->processing = true; safe_traverse_exec_env_list(cluster, wait_for_thread_visitor, (void *)exec_env); cluster->processing = false; os_mutex_unlock(&cluster->lock); } bool wasm_cluster_register_destroy_callback(void (*callback)(WASMCluster *)) { DestroyCallBackNode *node; if (!(node = wasm_runtime_malloc(sizeof(DestroyCallBackNode)))) { LOG_ERROR("thread manager error: failed to allocate memory"); return false; } node->destroy_cb = callback; bh_list_insert(destroy_callback_list, node); return true; } void wasm_cluster_suspend_thread(WASMExecEnv *exec_env) { /* Set the suspend flag */ WASM_SUSPEND_FLAGS_FETCH_OR(exec_env->suspend_flags, WASM_SUSPEND_FLAG_SUSPEND); } static void suspend_thread_visitor(void *node, void *user_data) { WASMExecEnv *curr_exec_env = (WASMExecEnv *)node; WASMExecEnv *exec_env = (WASMExecEnv *)user_data; if (curr_exec_env == exec_env) return; wasm_cluster_suspend_thread(curr_exec_env); } void wasm_cluster_suspend_all(WASMCluster *cluster) { os_mutex_lock(&cluster->lock); traverse_list(&cluster->exec_env_list, suspend_thread_visitor, NULL); os_mutex_unlock(&cluster->lock); } void wasm_cluster_suspend_all_except_self(WASMCluster *cluster, WASMExecEnv *exec_env) { os_mutex_lock(&cluster->lock); traverse_list(&cluster->exec_env_list, suspend_thread_visitor, (void *)exec_env); os_mutex_unlock(&cluster->lock); } void wasm_cluster_resume_thread(WASMExecEnv *exec_env) { WASM_SUSPEND_FLAGS_FETCH_AND(exec_env->suspend_flags, ~WASM_SUSPEND_FLAG_SUSPEND); os_cond_signal(&exec_env->wait_cond); } static void resume_thread_visitor(void *node, void *user_data) { WASMExecEnv *curr_exec_env = (WASMExecEnv *)node; wasm_cluster_resume_thread(curr_exec_env); } void wasm_cluster_resume_all(WASMCluster *cluster) { os_mutex_lock(&cluster->lock); traverse_list(&cluster->exec_env_list, resume_thread_visitor, NULL); os_mutex_unlock(&cluster->lock); } struct spread_exception_data { WASMExecEnv *skip; const char *exception; }; static void set_exception_visitor(void *node, void *user_data) { const struct spread_exception_data *data = user_data; WASMExecEnv *exec_env = (WASMExecEnv *)node; if (exec_env != data->skip) { WASMModuleInstance *wasm_inst = (WASMModuleInstance *)get_module_inst(exec_env); exception_lock(wasm_inst); if (data->exception != NULL) { snprintf(wasm_inst->cur_exception, sizeof(wasm_inst->cur_exception), "Exception: %s", data->exception); } else { wasm_inst->cur_exception[0] = '\0'; } exception_unlock(wasm_inst); /* Terminate the thread so it can exit from dead loops */ if (data->exception != NULL) { set_thread_cancel_flags(exec_env); } else { clear_thread_cancel_flags(exec_env); } } } void wasm_cluster_set_exception(WASMExecEnv *exec_env, const char *exception) { const bool has_exception = exception != NULL; WASMCluster *cluster = wasm_exec_env_get_cluster(exec_env); bh_assert(cluster); struct spread_exception_data data; data.skip = NULL; data.exception = exception; os_mutex_lock(&cluster->lock); #if WASM_ENABLE_DUMP_CALL_STACK != 0 if (has_exception) { /* Save the stack frames of the crashed thread into the cluster */ WASMModuleInstance *module_inst = (WASMModuleInstance *)get_module_inst(exec_env); #if WASM_ENABLE_INTERP != 0 if (module_inst->module_type == Wasm_Module_Bytecode && wasm_interp_create_call_stack(exec_env)) { wasm_frame_vec_clone_internal(module_inst->frames, &cluster->exception_frames); } #endif #if WASM_ENABLE_AOT != 0 if (module_inst->module_type == Wasm_Module_AoT && aot_create_call_stack(exec_env)) { wasm_frame_vec_clone_internal(module_inst->frames, &cluster->exception_frames); } #endif } #endif /* WASM_ENABLE_DUMP_CALL_STACK != 0 */ cluster->has_exception = has_exception; traverse_list(&cluster->exec_env_list, set_exception_visitor, &data); os_mutex_unlock(&cluster->lock); } static void set_custom_data_visitor(void *node, void *user_data) { WASMExecEnv *curr_exec_env = (WASMExecEnv *)node; WASMModuleInstanceCommon *module_inst = get_module_inst(curr_exec_env); wasm_runtime_set_custom_data_internal(module_inst, user_data); } void wasm_cluster_spread_custom_data(WASMModuleInstanceCommon *module_inst, void *custom_data) { WASMExecEnv *exec_env = wasm_clusters_search_exec_env(module_inst); if (exec_env == NULL) { /* Maybe threads have not been started yet. */ wasm_runtime_set_custom_data_internal(module_inst, custom_data); } else { WASMCluster *cluster; cluster = wasm_exec_env_get_cluster(exec_env); bh_assert(cluster); os_mutex_lock(&cluster->lock); traverse_list(&cluster->exec_env_list, set_custom_data_visitor, custom_data); os_mutex_unlock(&cluster->lock); } } #if WASM_ENABLE_MODULE_INST_CONTEXT != 0 struct inst_set_context_data { void *key; void *ctx; }; static void set_context_visitor(void *node, void *user_data) { WASMExecEnv *curr_exec_env = (WASMExecEnv *)node; WASMModuleInstanceCommon *module_inst = get_module_inst(curr_exec_env); const struct inst_set_context_data *data = user_data; wasm_runtime_set_context(module_inst, data->key, data->ctx); } void wasm_cluster_set_context(WASMModuleInstanceCommon *module_inst, void *key, void *ctx) { WASMExecEnv *exec_env = wasm_clusters_search_exec_env(module_inst); if (exec_env == NULL) { /* Maybe threads have not been started yet. */ wasm_runtime_set_context(module_inst, key, ctx); } else { WASMCluster *cluster; struct inst_set_context_data data; data.key = key; data.ctx = ctx; cluster = wasm_exec_env_get_cluster(exec_env); bh_assert(cluster); os_mutex_lock(&cluster->lock); traverse_list(&cluster->exec_env_list, set_context_visitor, &data); os_mutex_unlock(&cluster->lock); } } #endif /* WASM_ENABLE_MODULE_INST_CONTEXT != 0 */ bool wasm_cluster_is_thread_terminated(WASMExecEnv *exec_env) { os_mutex_lock(&exec_env->wait_lock); bool is_thread_terminated = (WASM_SUSPEND_FLAGS_GET(exec_env->suspend_flags) & WASM_SUSPEND_FLAG_TERMINATE) ? true : false; os_mutex_unlock(&exec_env->wait_lock); return is_thread_terminated; } void exception_lock(WASMModuleInstance *module_inst) { /* * Note: this lock could be per module instance if desirable. * We can revisit on AOT version bump. * It probably doesn't matter though because the exception handling * logic should not be executed too frequently anyway. */ os_mutex_lock(&_exception_lock); } void exception_unlock(WASMModuleInstance *module_inst) { os_mutex_unlock(&_exception_lock); } void wasm_cluster_traverse_lock(WASMExecEnv *exec_env) { WASMCluster *cluster = wasm_exec_env_get_cluster(exec_env); bh_assert(cluster); os_mutex_lock(&cluster->lock); } void wasm_cluster_traverse_unlock(WASMExecEnv *exec_env) { WASMCluster *cluster = wasm_exec_env_get_cluster(exec_env); bh_assert(cluster); os_mutex_unlock(&cluster->lock); }