/** * @file thread_knl.c * @author ATShining (1358745329@qq.com) * @brief * @version 0.1 * @date 2023-09-29 * * @copyright Copyright (c) 2023 * */ #include "types.h" #include "init.h" #include "printk.h" #include "task.h" #include "thread.h" #include "factory.h" #include "globals.h" #include "arch.h" #include "map.h" #include "app.h" #include "mm_wrap.h" #include "thread_task_arch.h" #include "knl_misc.h" #include #if IS_ENABLED(CONFIG_KNL_TEST) #include #endif #if ARCH_WORD_SIZE == 64 #include #endif #include static uint8_t knl_msg_buf[THREAD_MSG_BUG_LEN]; static thread_t *knl_thread; static task_t knl_task; static thread_t *init_thread; static task_t *init_task; static slist_head_t del_task_head; static spinlock_t del_lock; static void knl_main(void) { umword_t status; umword_t status2; printk("knl main run..\n"); while (1) { task_t *pos; if (slist_is_empty(&del_task_head)) { continue; } status2 = spinlock_lock(&del_lock); if (slist_is_empty(&del_task_head)) { spinlock_set(&del_lock, status2); continue; } slist_foreach_not_next(pos, &del_task_head, del_node) { task_t *next = slist_next_entry(pos, &del_task_head, del_node); slist_del(&pos->del_node); { msg_tag_t tag; umword_t user_id; ipc_msg_t *msg = (ipc_msg_t *)knl_msg_buf; msg->msg_buf[0] = 1; /*KILL_TASK*/ msg->msg_buf[1] = pos->pid; msg->msg_buf[2] = 0; int ret = thread_ipc_call(init_thread, msg_tag_init4(0, 3, 0, 0x0005 /*PM_PROT*/), &tag, ipc_timeout_create2(3000, 3000), &user_id, TRUE); if (ret < 0) { printk("%s:%d ret:%d\n", __func__, __LINE__, ret); } } task_kill(pos); pos = next; } spinlock_set(&del_lock, status2); } } /** * 初始化内核线程 * 初始化内核任务 */ static void knl_init_1(void) { knl_thread = thread_get_current(); thread_init(knl_thread, &root_factory_get()->limit); task_init(&knl_task, &root_factory_get()->limit, TRUE); task_knl_init(&knl_task); thread_knl_pf_set(knl_thread, knl_main); thread_bind(knl_thread, &knl_task.kobj); thread_set_msg_bug(knl_thread, knl_msg_buf); thread_ready(knl_thread, FALSE); slist_init(&del_task_head); } INIT_STAGE1(knl_init_1); /** * 初始化init线程 * 初始化用户态任务 * 映射静态内核对象 * 运行init进程 */ static void knl_init_2(void) { mm_trace(); #if IS_ENABLED(CONFIG_KNL_TEST) knl_test(); #else extern mword_t cpio_images; umword_t ret_addr; size_t size; init_thread = thread_create(&root_factory_get()->limit); assert(init_thread); init_task = task_create(&root_factory_get()->limit, FALSE); assert(init_task); #if IS_ENABLED(CONFIG_ELF_LAUNCH) addr_t entry; ret_addr = cpio_find_file(cpio_images, (umword_t)(-1), "init.elf", &size); assert(ret_addr); elf_load(init_task, ret_addr, size, &entry); thread_set_msg_bug(init_thread, NULL /*TODO:*/); thread_user_pf_set(init_thread, (void *)(entry), NULL, NULL, 0); #else app_info_t *app = app_info_get((void *)(CONFIG_KNL_TEXT_ADDR + CONFIG_INIT_TASK_OFFSET)); // 申请init的ram内存 assert(task_alloc_base_ram(init_task, &root_factory_get()->limit, app->i.ram_size + THREAD_MSG_BUG_LEN) >= 0); void *sp_addr = (char *)init_task->mm_space.mm_block + app->i.stack_offset - app->i.data_offset; void *sp_addr_top = (char *)sp_addr + app->i.stack_size; thread_set_msg_bug(init_thread, (char *)(init_task->mm_space.mm_block) + app->i.ram_size); thread_user_pf_set(init_thread, (void *)(CONFIG_KNL_TEXT_ADDR + CONFIG_INIT_TASK_OFFSET), (void *)((umword_t)sp_addr_top - 8), init_task->mm_space.mm_block, 0); #endif thread_bind(init_thread, &init_task->kobj); assert(obj_map_root(&init_thread->kobj, &init_task->obj_space, &root_factory_get()->limit, vpage_create3(KOBJ_ALL_RIGHTS, 0, THREAD_PROT))); assert(obj_map_root(&init_task->kobj, &init_task->obj_space, &root_factory_get()->limit, vpage_create3(KOBJ_ALL_RIGHTS, 0, TASK_PROT))); for (int i = FACTORY_PORT_START; i < FACTORY_PORT_END; i++) { kobject_t *kobj = global_get_kobj(i); if (kobj) { assert(obj_map_root(kobj, &init_task->obj_space, &root_factory_get()->limit, vpage_create3(KOBJ_ALL_RIGHTS, 0, i))); } } init_thread->sche.prio = 2; init_task->pid = 0; thread_ready(init_thread, FALSE); #endif } INIT_STAGE2(knl_init_2); void task_knl_kill(thread_t *kill_thread, bool_t is_knl) { task_t *task = container_of(kill_thread->task, task_t, kobj); if (!is_knl) { printk("kill task:0x%x.\n", kill_thread->task); umword_t status2; thread_suspend(kill_thread); status2 = spinlock_lock(&del_lock); slist_add_append(&del_task_head, &task->del_node); spinlock_set(&del_lock, status2); } else { printk("[knl]: knl panic.\n"); assert(0); } } static void print_mkrtos_info(void) { static const char *start_info[] = { " _____ ______ ___ __ ________ _________ ________ ________ \r\n", "|\\ _ \\ _ \\|\\ \\|\\ \\ |\\ __ \\|\\___ ___\\\\ __ \\|\\ ____\\ \r\n", "\\ \\ \\\\\\__\\ \\ \\ \\ \\/ /|\\ \\ \\|\\ \\|___ \\ \\_\\ \\ \\|\\ \\ \\ \\___|_ \r\n", " \\ \\ \\\\|__| \\ \\ \\ ___ \\ \\ _ _\\ \\ \\ \\ \\ \\ \\\\\\ \\ \\_____ \\ \r\n", " \\ \\ \\ \\ \\ \\ \\ \\\\ \\ \\ \\ \\\\ \\| \\ \\ \\ \\ \\ \\\\\\ \\|____|\\ \\ \r\n", " \\ \\__\\ \\ \\__\\ \\__\\\\ \\__\\ \\__\\\\ _\\ \\ \\__\\ \\ \\_______\\____\\_\\ \\ \r\n", " \\|__| \\|__|\\|__| \\|__|\\|__|\\|__| \\|__| \\|_______|\\_________\\\r\n", " \\|_________|\r\n", "Complie Time:" __DATE__ " " __TIME__ "\r\n", }; for (umword_t i = 0; i < sizeof(start_info) / sizeof(void *); i++) { printk(start_info[i]); } } void start_kernel(void) { // 初始化系统时钟 // 初始化串口 // 初始化定时器 sys_call_init(); printk("mkrtos init done..\n"); printk("mkrtos running..\n"); printk("sys freq:%d\n", arch_get_sys_clk()); print_mkrtos_info(); cli(); sys_startup(); //!< 开始调度 thread_sched(); sti(); while (1) ; }