/* * Copyright (c) 2006-2021, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2019-10-16 zhangjun first version * 2021-02-20 lizhirui fix warning */ #include #include #include #include #include /* rename() */ #include #include /* statfs() */ #include "lwp.h" #include "lwp_pid.h" #include "tty.h" #ifdef ARCH_MM_MMU #include "lwp_user_mm.h" #endif #define DBG_TAG "LWP_PID" #define DBG_LVL DBG_INFO #include #define PID_MAX 10000 #define PID_CT_ASSERT(name, x) \ struct assert_##name {char ary[2 * (x) - 1];} PID_CT_ASSERT(pid_min_nr, RT_LWP_MAX_NR > 1); PID_CT_ASSERT(pid_max_nr, RT_LWP_MAX_NR < PID_MAX); static struct lwp_avl_struct lwp_pid_ary[RT_LWP_MAX_NR]; static struct lwp_avl_struct *lwp_pid_free_head = RT_NULL; static int lwp_pid_ary_alloced = 0; static struct lwp_avl_struct *lwp_pid_root = RT_NULL; static pid_t current_pid = 0; struct lwp_avl_struct *lwp_get_pid_ary(void) { return lwp_pid_ary; } static pid_t lwp_pid_get(void) { rt_base_t level; struct lwp_avl_struct *p; pid_t pid = 0; level = rt_hw_interrupt_disable(); p = lwp_pid_free_head; if (p) { lwp_pid_free_head = (struct lwp_avl_struct *)p->avl_right; } else if (lwp_pid_ary_alloced < RT_LWP_MAX_NR) { p = lwp_pid_ary + lwp_pid_ary_alloced; lwp_pid_ary_alloced++; } if (p) { int found_noused = 0; RT_ASSERT(p->data == RT_NULL); for (pid = current_pid + 1; pid < PID_MAX; pid++) { if (!lwp_avl_find(pid, lwp_pid_root)) { found_noused = 1; break; } } if (!found_noused) { for (pid = 1; pid <= current_pid; pid++) { if (!lwp_avl_find(pid, lwp_pid_root)) { found_noused = 1; break; } } } p->avl_key = pid; lwp_avl_insert(p, &lwp_pid_root); current_pid = pid; } rt_hw_interrupt_enable(level); return pid; } static void lwp_pid_put(pid_t pid) { rt_base_t level; struct lwp_avl_struct *p; level = rt_hw_interrupt_disable(); p = lwp_avl_find(pid, lwp_pid_root); if (p) { p->data = RT_NULL; lwp_avl_remove(p, &lwp_pid_root); p->avl_right = lwp_pid_free_head; lwp_pid_free_head = p; } rt_hw_interrupt_enable(level); } static void lwp_pid_set_lwp(pid_t pid, struct rt_lwp *lwp) { rt_base_t level; struct lwp_avl_struct *p; level = rt_hw_interrupt_disable(); p = lwp_avl_find(pid, lwp_pid_root); if (p) { p->data = lwp; } rt_hw_interrupt_enable(level); } static void __exit_files(struct rt_lwp *lwp) { int fd = lwp->fdt.maxfd - 1; while (fd >= 0) { struct dfs_fd *d; d = lwp->fdt.fds[fd]; if (d) { dfs_file_close(d); fdt_fd_release(&lwp->fdt, fd); } fd--; } } void lwp_user_object_lock_init(struct rt_lwp *lwp) { rt_mutex_init(&lwp->object_mutex, "lwp_obj", RT_IPC_FLAG_PRIO); } void lwp_user_object_lock_destroy(struct rt_lwp *lwp) { rt_mutex_detach(&lwp->object_mutex); } void lwp_user_object_lock(struct rt_lwp *lwp) { if (lwp) { rt_mutex_take(&lwp->object_mutex, RT_WAITING_FOREVER); } else { RT_ASSERT(0); } } void lwp_user_object_unlock(struct rt_lwp *lwp) { if (lwp) { rt_mutex_release(&lwp->object_mutex); } else { RT_ASSERT(0); } } int lwp_user_object_add(struct rt_lwp *lwp, rt_object_t object) { int ret = -1; if (lwp && object) { lwp_user_object_lock(lwp); if (!lwp_avl_find((avl_key_t)object, lwp->object_root)) { struct lwp_avl_struct *node; node = (struct lwp_avl_struct *)rt_malloc(sizeof(struct lwp_avl_struct)); if (node) { rt_base_t level; level = rt_hw_interrupt_disable(); object->lwp_ref_count++; rt_hw_interrupt_enable(level); node->avl_key = (avl_key_t)object; lwp_avl_insert(node, &lwp->object_root); ret = 0; } } lwp_user_object_unlock(lwp); } return ret; } static rt_err_t _object_node_delete(struct rt_lwp *lwp, struct lwp_avl_struct *node) { rt_err_t ret = -1; rt_object_t object; if (!lwp || !node) { return ret; } object = (rt_object_t)node->avl_key; object->lwp_ref_count--; if (object->lwp_ref_count == 0) { /* remove from kernel object list */ switch (object->type) { case RT_Object_Class_Semaphore: ret = rt_sem_delete((rt_sem_t)object); break; case RT_Object_Class_Mutex: ret = rt_mutex_delete((rt_mutex_t)object); break; case RT_Object_Class_Event: ret = rt_event_delete((rt_event_t)object); break; case RT_Object_Class_MailBox: ret = rt_mb_delete((rt_mailbox_t)object); break; case RT_Object_Class_MessageQueue: ret = rt_mq_delete((rt_mq_t)object); break; case RT_Object_Class_Timer: ret = rt_timer_delete((rt_timer_t)object); break; case RT_Object_Class_Custom: ret = rt_custom_object_destroy(object); break; default: LOG_E("input object type(%d) error", object->type); break; } } else { ret = 0; } lwp_avl_remove(node, &lwp->object_root); rt_free(node); return ret; } rt_err_t lwp_user_object_delete(struct rt_lwp *lwp, rt_object_t object) { rt_err_t ret = -1; if (lwp && object) { struct lwp_avl_struct *node; lwp_user_object_lock(lwp); node = lwp_avl_find((avl_key_t)object, lwp->object_root); ret = _object_node_delete(lwp, node); lwp_user_object_unlock(lwp); } return ret; } void lwp_user_object_clear(struct rt_lwp *lwp) { struct lwp_avl_struct *node; lwp_user_object_lock(lwp); while ((node = lwp_map_find_first(lwp->object_root)) != RT_NULL) { _object_node_delete(lwp, node); } lwp_user_object_unlock(lwp); } static int _object_dup(struct lwp_avl_struct *node, void *arg) { rt_object_t object; struct rt_lwp *dst_lwp = (struct rt_lwp *)arg; object = (rt_object_t)node->avl_key; lwp_user_object_add(dst_lwp, object); return 0; } void lwp_user_object_dup(struct rt_lwp *dst_lwp, struct rt_lwp *src_lwp) { lwp_user_object_lock(src_lwp); lwp_avl_traversal(src_lwp->object_root, _object_dup, dst_lwp); lwp_user_object_unlock(src_lwp); } struct rt_lwp* lwp_new(void) { pid_t pid; rt_base_t level; struct rt_lwp* lwp = RT_NULL; lwp = (struct rt_lwp *)rt_malloc(sizeof(struct rt_lwp)); if (lwp == RT_NULL) { return lwp; } rt_memset(lwp, 0, sizeof(*lwp)); //lwp->tgroup_leader = RT_NULL; rt_list_init(&lwp->wait_list); lwp->leader = 0; lwp->session = -1; lwp->tty = RT_NULL; rt_list_init(&lwp->t_grp); lwp_user_object_lock_init(lwp); lwp->address_search_head = RT_NULL; rt_wqueue_init(&lwp->wait_queue); lwp->ref = 1; level = rt_hw_interrupt_disable(); pid = lwp_pid_get(); if (pid == 0) { lwp_user_object_lock_destroy(lwp); rt_free(lwp); lwp = RT_NULL; LOG_E("pid slot fulled!\n"); goto out; } lwp->pid = pid; lwp_pid_set_lwp(pid, lwp); #ifdef LWP_ENABLE_ASID lwp->generation = 0; lwp->asid = 0; #endif out: rt_hw_interrupt_enable(level); return lwp; } void lwp_free(struct rt_lwp* lwp) { rt_base_t level; if (lwp == RT_NULL) { return; } LOG_D("lwp free: %p\n", lwp); level = rt_hw_interrupt_disable(); lwp->finish = 1; rt_hw_interrupt_enable(level); if (lwp->args != RT_NULL) { #ifndef ARCH_MM_MMU lwp->args_length = RT_NULL; #ifndef ARCH_MM_MPU rt_free(lwp->args); #endif /* not defined ARCH_MM_MPU */ #endif /* ARCH_MM_MMU */ lwp->args = RT_NULL; } if (lwp->fdt.fds != RT_NULL) { /* auto clean fds */ __exit_files(lwp); rt_free(lwp->fdt.fds); lwp->fdt.fds = RT_NULL; } lwp_user_object_clear(lwp); lwp_user_object_lock_destroy(lwp); /* free data section */ if (lwp->data_entry != RT_NULL) { #ifdef ARCH_MM_MMU rt_free_align(lwp->data_entry); #else #ifdef ARCH_MM_MPU rt_lwp_umap_user(lwp, lwp->text_entry, 0); rt_lwp_free_user(lwp, lwp->data_entry, lwp->data_size); #else rt_free_align(lwp->data_entry); #endif /* ARCH_MM_MPU */ #endif /* ARCH_MM_MMU */ lwp->data_entry = RT_NULL; } /* free text section */ if (lwp->lwp_type == LWP_TYPE_DYN_ADDR) { if (lwp->text_entry) { LOG_D("lwp text free: %p", lwp->text_entry); #ifndef ARCH_MM_MMU rt_free((void*)lwp->text_entry); #endif /* not defined ARCH_MM_MMU */ lwp->text_entry = RT_NULL; } } #ifdef ARCH_MM_MMU lwp_unmap_user_space(lwp); #endif level = rt_hw_interrupt_disable(); /* for children */ while (lwp->first_child) { struct rt_lwp *child; child = lwp->first_child; lwp->first_child = child->sibling; if (child->finish) { lwp_pid_put(lwp_to_pid(child)); rt_hw_interrupt_enable(level); rt_free(child); level = rt_hw_interrupt_disable(); } else { child->sibling = RT_NULL; child->parent = RT_NULL; } } rt_hw_interrupt_enable(level); /* for parent */ { struct termios *old_stdin_termios = get_old_termios(); struct rt_lwp *old_lwp = NULL; if (lwp->session == -1) { tcsetattr(1, 0, old_stdin_termios); } level = rt_hw_interrupt_disable(); if (lwp->tty != RT_NULL) { rt_mutex_take(&lwp->tty->lock, RT_WAITING_FOREVER); old_lwp = tty_pop(&lwp->tty->head, RT_NULL); rt_mutex_release(&lwp->tty->lock); if (lwp->tty->foreground == lwp) { lwp->tty->foreground = old_lwp; lwp->tty = RT_NULL; } } if (lwp->parent) { struct rt_thread *thread; if (!rt_list_isempty(&lwp->wait_list)) { thread = rt_list_entry(lwp->wait_list.next, struct rt_thread, tlist); thread->error = RT_EOK; thread->msg_ret = (void*)(rt_size_t)lwp->lwp_ret; rt_thread_resume(thread); rt_hw_interrupt_enable(level); return; } else { struct rt_lwp **it = &lwp->parent->first_child; while (*it != lwp) { it = &(*it)->sibling; } *it = lwp->sibling; } } lwp_pid_put(lwp_to_pid(lwp)); rt_hw_interrupt_enable(level); rt_free(lwp); } } int lwp_ref_inc(struct rt_lwp *lwp) { rt_base_t level; level = rt_hw_interrupt_disable(); lwp->ref++; rt_hw_interrupt_enable(level); return 0; } int lwp_ref_dec(struct rt_lwp *lwp) { rt_base_t level; int ref = -1; level = rt_hw_interrupt_disable(); if (lwp->ref) { lwp->ref--; ref = lwp->ref; } rt_hw_interrupt_enable(level); if (!ref) { struct rt_channel_msg msg; if (lwp->debug) { memset(&msg, 0, sizeof msg); rt_raw_channel_send(gdb_server_channel(), &msg); } #ifndef ARCH_MM_MMU #ifdef RT_LWP_USING_SHM lwp_shm_lwp_free(lwp); #endif /* RT_LWP_USING_SHM */ #endif /* not defined ARCH_MM_MMU */ lwp_free(lwp); return 0; } return -1; } struct rt_lwp* lwp_from_pid(pid_t pid) { rt_base_t level; struct lwp_avl_struct *p; struct rt_lwp *lwp = RT_NULL; level = rt_hw_interrupt_disable(); p = lwp_avl_find(pid, lwp_pid_root); if (p) { lwp = (struct rt_lwp *)p->data; } rt_hw_interrupt_enable(level); return lwp; } pid_t lwp_to_pid(struct rt_lwp* lwp) { if (!lwp) { return 0; } return lwp->pid; } char* lwp_pid2name(int32_t pid) { struct rt_lwp *lwp; char* process_name = RT_NULL; lwp = lwp_from_pid(pid); if (lwp) { process_name = strrchr(lwp->cmd, '/'); process_name = process_name? process_name + 1: lwp->cmd; } return process_name; } pid_t lwp_name2pid(const char *name) { int idx; pid_t pid = 0; rt_thread_t main_thread; char* process_name = RT_NULL; rt_base_t level; level = rt_hw_interrupt_disable(); for (idx = 0; idx < RT_LWP_MAX_NR; idx++) { /* 0 is reserved */ struct rt_lwp *lwp = (struct rt_lwp *)lwp_pid_ary[idx].data; if (lwp) { process_name = strrchr(lwp->cmd, '/'); process_name = process_name? process_name + 1: lwp->cmd; if (!rt_strncmp(name, process_name, RT_NAME_MAX)) { main_thread = rt_list_entry(lwp->t_grp.prev, struct rt_thread, sibling); if (!(main_thread->stat & RT_THREAD_CLOSE)) { pid = lwp->pid; } } } } rt_hw_interrupt_enable(level); return pid; } int lwp_getpid(void) { return ((struct rt_lwp *)rt_thread_self()->lwp)->pid; } pid_t waitpid(pid_t pid, int *status, int options) { pid_t ret = -1; rt_base_t level; struct rt_thread *thread; struct rt_lwp *lwp; struct rt_lwp *lwp_self; level = rt_hw_interrupt_disable(); lwp = lwp_from_pid(pid); if (!lwp) { goto quit; } lwp_self = (struct rt_lwp *)rt_thread_self()->lwp; if (!lwp_self) { goto quit; } if (lwp->parent != lwp_self) { goto quit; } if (lwp->finish) { ret = pid; } else { if (!rt_list_isempty(&lwp->wait_list)) { goto quit; } thread = rt_thread_self(); rt_thread_suspend_with_flag(thread, RT_UNINTERRUPTIBLE); rt_list_insert_before(&lwp->wait_list, &(thread->tlist)); rt_schedule(); if (thread->error == RT_EOK) { ret = pid; } } if (ret != -1) { struct rt_lwp **lwp_node; *status = lwp->lwp_ret; lwp_node = &lwp_self->first_child; while (*lwp_node != lwp) { RT_ASSERT(*lwp_node != RT_NULL); lwp_node = &(*lwp_node)->sibling; } (*lwp_node) = lwp->sibling; lwp_pid_put(pid); rt_free(lwp); } quit: rt_hw_interrupt_enable(level); return ret; } #ifdef RT_USING_FINSH /* copy from components/finsh/cmd.c */ static void object_split(int len) { while (len--) { rt_kprintf("-"); } } static void print_thread_info(struct rt_thread* thread, int maxlen) { rt_uint8_t *ptr; rt_uint8_t stat; #ifdef RT_USING_SMP if (thread->oncpu != RT_CPU_DETACHED) rt_kprintf("%-*.*s %3d %3d ", maxlen, RT_NAME_MAX, thread->name, thread->oncpu, thread->current_priority); else rt_kprintf("%-*.*s N/A %3d ", maxlen, RT_NAME_MAX, thread->name, thread->current_priority); #else rt_kprintf("%-*.*s %3d ", maxlen, RT_NAME_MAX, thread->name, thread->current_priority); #endif /*RT_USING_SMP*/ stat = (thread->stat & RT_THREAD_STAT_MASK); if (stat == RT_THREAD_READY) rt_kprintf(" ready "); else if ((stat & RT_THREAD_SUSPEND_MASK) == RT_THREAD_SUSPEND_MASK) rt_kprintf(" suspend"); else if (stat == RT_THREAD_INIT) rt_kprintf(" init "); else if (stat == RT_THREAD_CLOSE) rt_kprintf(" close "); else if (stat == RT_THREAD_RUNNING) rt_kprintf(" running"); #if defined(ARCH_CPU_STACK_GROWS_UPWARD) ptr = (rt_uint8_t *)thread->stack_addr + thread->stack_size; while (*ptr == '#')ptr--; rt_kprintf(" 0x%08x 0x%08x %02d%% 0x%08x %03d\n", ((rt_uint32_t)thread->sp - (rt_uint32_t)thread->stack_addr), thread->stack_size, ((rt_uint32_t)ptr - (rt_uint32_t)thread->stack_addr) * 100 / thread->stack_size, thread->remaining_tick, thread->error); #else ptr = (rt_uint8_t *)thread->stack_addr; while (*ptr == '#')ptr++; rt_kprintf(" 0x%08x 0x%08x %02d%% 0x%08x %03d\n", (thread->stack_size + (rt_uint32_t)(rt_size_t)thread->stack_addr - (rt_uint32_t)(rt_size_t)thread->sp), thread->stack_size, (thread->stack_size + (rt_uint32_t)(rt_size_t)thread->stack_addr - (rt_uint32_t)(rt_size_t)ptr) * 100 / thread->stack_size, thread->remaining_tick, thread->error); #endif } long list_process(void) { int index; int maxlen; rt_ubase_t level; struct rt_thread *thread; struct rt_list_node *node, *list; const char *item_title = "thread"; int count = 0; struct rt_thread **threads; maxlen = RT_NAME_MAX; #ifdef RT_USING_SMP rt_kprintf("%-*.s %-*.s %-*.s cpu pri status sp stack size max used left tick error\n", 4, "PID", maxlen, "CMD", maxlen, item_title); object_split(4);rt_kprintf(" ");object_split(maxlen);rt_kprintf(" ");object_split(maxlen);rt_kprintf(" "); rt_kprintf( "--- --- ------- ---------- ---------- ------ ---------- ---\n"); #else rt_kprintf("%-*.s %-*.s %-*.s pri status sp stack size max used left tick error\n", 4, "PID", maxlen, "CMD", maxlen, item_title); object_split(4);rt_kprintf(" ");object_split(maxlen);rt_kprintf(" ");object_split(maxlen);rt_kprintf(" "); rt_kprintf( "--- ------- ---------- ---------- ------ ---------- ---\n"); #endif /*RT_USING_SMP*/ count = rt_object_get_length(RT_Object_Class_Thread); if (count > 0) { /* get thread pointers */ threads = (struct rt_thread **)rt_calloc(count, sizeof(struct rt_thread *)); if (threads) { index = rt_object_get_pointers(RT_Object_Class_Thread, (rt_object_t *)threads, count); if (index > 0) { for (index = 0; index type & ~RT_Object_Class_Static) != RT_Object_Class_Thread) { rt_hw_interrupt_enable(level); continue; } rt_memcpy(&th, thread, sizeof(struct rt_thread)); rt_hw_interrupt_enable(level); if (th.lwp == RT_NULL) { rt_kprintf(" %-*.*s ", maxlen, RT_NAME_MAX, "kernel"); print_thread_info(&th, maxlen); } } } rt_free(threads); } } for (index = 0; index < RT_LWP_MAX_NR; index++) { struct rt_lwp *lwp = (struct rt_lwp *)lwp_pid_ary[index].data; if (lwp) { list = &lwp->t_grp; for (node = list->next; node != list; node = node->next) { thread = rt_list_entry(node, struct rt_thread, sibling); rt_kprintf("%4d %-*.*s ", lwp_to_pid(lwp), maxlen, RT_NAME_MAX, lwp->cmd); print_thread_info(thread, maxlen); } } } return 0; } MSH_CMD_EXPORT(list_process, list process); static void cmd_kill(int argc, char** argv) { int pid; int sig = 0; if (argc < 2) { rt_kprintf("kill pid or kill pid -s signal\n"); return; } pid = atoi(argv[1]); if (argc >= 4) { if (argv[2][0] == '-' && argv[2][1] == 's') { sig = atoi(argv[3]); } } lwp_kill(pid, sig); } MSH_CMD_EXPORT_ALIAS(cmd_kill, kill, send a signal to a process); static void cmd_killall(int argc, char** argv) { int pid; if (argc < 2) { rt_kprintf("killall processes_name\n"); return; } while((pid = lwp_name2pid(argv[1])) > 0) { lwp_kill(pid, SIGKILL); rt_thread_mdelay(100); } } MSH_CMD_EXPORT_ALIAS(cmd_killall, killall, kill processes by name); #endif int lwp_check_exit_request(void) { rt_thread_t thread = rt_thread_self(); if (!thread->lwp) { return 0; } if (thread->exit_request == LWP_EXIT_REQUEST_TRIGGERED) { thread->exit_request = LWP_EXIT_REQUEST_IN_PROCESS; return 1; } return 0; } static int found_thread(struct rt_lwp* lwp, rt_thread_t thread) { int found = 0; rt_base_t level; rt_list_t *list; level = rt_hw_interrupt_disable(); list = lwp->t_grp.next; while (list != &lwp->t_grp) { rt_thread_t iter_thread; iter_thread = rt_list_entry(list, struct rt_thread, sibling); if (thread == iter_thread) { found = 1; break; } list = list->next; } rt_hw_interrupt_enable(level); return found; } void lwp_request_thread_exit(rt_thread_t thread_to_exit) { rt_thread_t main_thread; rt_base_t level; rt_list_t *list; struct rt_lwp *lwp; lwp = lwp_self(); if ((!thread_to_exit) || (!lwp)) { return; } level = rt_hw_interrupt_disable(); main_thread = rt_list_entry(lwp->t_grp.prev, struct rt_thread, sibling); if (thread_to_exit == main_thread) { goto finish; } if ((struct rt_lwp *)thread_to_exit->lwp != lwp) { goto finish; } for (list = lwp->t_grp.next; list != &lwp->t_grp; list = list->next) { rt_thread_t thread; thread = rt_list_entry(list, struct rt_thread, sibling); if (thread != thread_to_exit) { continue; } if (thread->exit_request == LWP_EXIT_REQUEST_NONE) { thread->exit_request = LWP_EXIT_REQUEST_TRIGGERED; } if ((thread->stat & RT_THREAD_SUSPEND_MASK) == RT_THREAD_SUSPEND_MASK) { thread->error = -RT_EINTR; rt_hw_dsb(); rt_thread_wakeup(thread); } break; } while (found_thread(lwp, thread_to_exit)) { rt_thread_mdelay(10); } finish: rt_hw_interrupt_enable(level); return; } void lwp_terminate(struct rt_lwp *lwp) { rt_base_t level; rt_list_t *list; if (!lwp) { /* kernel thread not support */ return; } level = rt_hw_interrupt_disable(); for (list = lwp->t_grp.next; list != &lwp->t_grp; list = list->next) { rt_thread_t thread; thread = rt_list_entry(list, struct rt_thread, sibling); if (thread->exit_request == LWP_EXIT_REQUEST_NONE) { thread->exit_request = LWP_EXIT_REQUEST_TRIGGERED; } if ((thread->stat & RT_THREAD_SUSPEND_MASK) == RT_THREAD_SUSPEND_MASK) { thread->error = RT_EINTR; rt_hw_dsb(); rt_thread_wakeup(thread); } } rt_hw_interrupt_enable(level); } void lwp_wait_subthread_exit(void) { rt_base_t level; struct rt_lwp *lwp; rt_thread_t thread; rt_thread_t main_thread; lwp = lwp_self(); if (!lwp) { return; } thread = rt_thread_self(); main_thread = rt_list_entry(lwp->t_grp.prev, struct rt_thread, sibling); if (thread != main_thread) { return; } while (1) { int subthread_is_terminated; level = rt_hw_interrupt_disable(); subthread_is_terminated = (int)(thread->sibling.prev == &lwp->t_grp); if (!subthread_is_terminated) { rt_thread_t sub_thread; rt_list_t *list; int all_subthread_in_init = 1; /* check all subthread is in init state */ for (list = thread->sibling.prev; list != &lwp->t_grp; list = list->prev) { sub_thread = rt_list_entry(list, struct rt_thread, sibling); if ((sub_thread->stat & RT_THREAD_STAT_MASK) != RT_THREAD_INIT) { all_subthread_in_init = 0; break; } } if (all_subthread_in_init) { /* delete all subthread */ while ((list = thread->sibling.prev) != &lwp->t_grp) { sub_thread = rt_list_entry(list, struct rt_thread, sibling); rt_list_remove(&sub_thread->sibling); rt_thread_delete(sub_thread); } subthread_is_terminated = 1; } } rt_hw_interrupt_enable(level); if (subthread_is_terminated) { break; } rt_thread_mdelay(10); } } static int _lwp_setaffinity(pid_t pid, int cpu) { struct rt_lwp *lwp; int ret = -1; lwp = lwp_from_pid(pid); if (lwp) { #ifdef RT_USING_SMP rt_list_t *list; lwp->bind_cpu = cpu; for (list = lwp->t_grp.next; list != &lwp->t_grp; list = list->next) { rt_thread_t thread; thread = rt_list_entry(list, struct rt_thread, sibling); rt_thread_control(thread, RT_THREAD_CTRL_BIND_CPU, (void *)(rt_size_t)cpu); } #endif ret = 0; } return ret; } int lwp_setaffinity(pid_t pid, int cpu) { rt_base_t level; int ret; #ifdef RT_USING_SMP if (cpu < 0 || cpu > RT_CPUS_NR) { cpu = RT_CPUS_NR; } #endif level = rt_hw_interrupt_disable(); ret = _lwp_setaffinity(pid, cpu); rt_hw_interrupt_enable(level); return ret; } #ifdef RT_USING_SMP static void cmd_cpu_bind(int argc, char** argv) { int pid; int cpu; if (argc < 3) { rt_kprintf("Useage: cpu_bind pid cpu\n"); return; } pid = atoi(argv[1]); cpu = atoi(argv[2]); lwp_setaffinity((pid_t)pid, cpu); } MSH_CMD_EXPORT_ALIAS(cmd_cpu_bind, cpu_bind, set a process bind to a cpu); #endif