/* * Copyright (c) 2006-2023, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2023-11-21 Shell init ver. */ #define DBG_TAG "drivers.serial" #define DBG_LVL DBG_INFO #include #include #include #include #include #define TTY_NAME_PREFIX "S" /* (S)erial */ #define LWP_TTY_WORKQUEUE_PRIORITY 3 struct serial_tty_context { struct rt_serial_device *parent; struct rt_device_notify backup_notify; struct rt_work work; }; static struct rt_workqueue *_ttyworkq; /* system work queue */ #ifndef RT_USING_DM static rt_atomic_t _device_id_counter = 0; static long get_dec_digits(rt_ubase_t val) { long result = 1; while (1) { if (val < 10) return result; if (val < 100) return result + 1; if (val < 1000) return result + 2; if (val < 10000) return result + 3; val /= 10000U; result += 4; } return result; } #endif static char *alloc_device_name(struct rt_serial_device *serial) { char *tty_dev_name; #ifdef RT_USING_DM char *serial_name = serial->parent.parent.name; /* * if RT_USING_DM is defined, the name of the serial device * must be obtained using the serial_dev_set_name function, * and it should begin with "uart". */ RT_ASSERT((strlen(serial_name) > strlen("uart")) && (strncmp(serial_name, "uart", 4) == 0)); long digits_len = (sizeof(TTY_NAME_PREFIX) - 1) /* raw prefix */ + strlen(serial_name + sizeof("uart") - 1) /* suffix of serial device name*/ + 1; /* tailing \0 */ tty_dev_name = rt_malloc(digits_len); if (tty_dev_name) rt_sprintf(tty_dev_name, "%s%s", TTY_NAME_PREFIX, serial_name + sizeof("uart") - 1); #else RT_UNUSED(serial); unsigned int devid = rt_atomic_add(&_device_id_counter, 1); long digits_len = (sizeof(TTY_NAME_PREFIX) - 1) /* raw prefix */ + get_dec_digits(devid) + 1; /* tailing \0 */ tty_dev_name = rt_malloc(digits_len); if (tty_dev_name) rt_sprintf(tty_dev_name, "%s%u", TTY_NAME_PREFIX, devid); #endif return tty_dev_name; } #ifdef LWP_DEBUG_INIT static volatile int _early_input = 0; static void _set_debug(rt_device_t dev, rt_size_t size); RT_OBJECT_HOOKLIST_DEFINE_NODE(rt_hw_serial_rxind, _set_debug_node, _set_debug); static void _set_debug(rt_device_t dev, rt_size_t size) { rt_list_remove(&_set_debug_node.list_node); _early_input = 1; } static void _setup_debug_rxind_hook(void) { rt_hw_serial_rxind_sethook(&_set_debug_node); } int lwp_startup_debug_request(void) { return _early_input; } #else /* !LWP_DEBUG_INIT */ static void _setup_debug_rxind_hook(void) { return ; } #endif /* LWP_DEBUG_INIT */ static void _tty_rx_notify(struct rt_device *device) { lwp_tty_t tp; struct serial_tty_context *softc; tp = rt_container_of(device, struct lwp_tty, parent); RT_ASSERT(tp); softc = tty_softc(tp); if (_ttyworkq) rt_workqueue_submit_work(_ttyworkq, &softc->work, 0); } static void _tty_rx_worker(struct rt_work *work, void *data) { char input; rt_ssize_t readbytes; lwp_tty_t tp = data; struct serial_tty_context *softc; struct rt_serial_device *serial; tty_lock(tp); while (1) { softc = tty_softc(tp); serial = softc->parent; readbytes = rt_device_read(&serial->parent, -1, &input, 1); if (readbytes != 1) { break; } ttydisc_rint(tp, input, 0); } ttydisc_rint_done(tp); tty_unlock(tp); } rt_inline void _setup_serial(struct rt_serial_device *serial, lwp_tty_t tp, struct serial_tty_context *softc) { struct rt_device_notify notify; softc->backup_notify = serial->rx_notify; notify.dev = &tp->parent; notify.notify = _tty_rx_notify; rt_device_init(&serial->parent); rt_device_control(&serial->parent, RT_DEVICE_CTRL_NOTIFY_SET, ¬ify); } rt_inline void _restore_serial(struct rt_serial_device *serial, lwp_tty_t tp, struct serial_tty_context *softc) { rt_device_control(&serial->parent, RT_DEVICE_CTRL_NOTIFY_SET, &softc->backup_notify); } static void _serial_tty_set_speed(struct lwp_tty *tp) { struct serial_tty_context *softc = (struct serial_tty_context *)(tp->t_devswsoftc); struct rt_serial_device *serial; struct termios serial_hw_config; RT_ASSERT(softc); serial = softc->parent; rt_device_control(&(serial->parent), TCGETS, &serial_hw_config); tp->t_termios_init_in.c_cflag |= serial_hw_config.c_cflag; tp->t_termios_init_in.__c_ispeed = tp->t_termios_init_in.__c_ospeed = cfgetospeed(&tp->t_termios_init_in); } static int _serial_isbusy(struct rt_serial_device *serial) { rt_thread_t user_thread = rt_console_current_user(); rt_thread_t self_thread = rt_thread_self(); return rt_console_get_device() == &serial->parent && (user_thread != RT_NULL && user_thread != self_thread); } static void serial_tty_outwakeup(struct lwp_tty *tp) { char out_char; int len; struct serial_tty_context *context = tty_softc(tp); struct rt_serial_device *device; if (!context || !context->parent) { LOG_E("%s: Data corruption", __func__); return; } device = context->parent; if (_serial_isbusy(device)) { return ; } while ((len = ttydisc_getc(tp, &out_char, sizeof(out_char))) != 0) { device->ops->putc(device, out_char); /* discard remaining if emergency output is happened */ if (_serial_isbusy(device)) { break; } } } static int serial_tty_open(struct lwp_tty *tp) { struct serial_tty_context *softc; struct rt_serial_device *serial; rt_err_t error; int oflags; softc = tty_softc(tp); serial = softc->parent; LOG_D("%s", __func__); rt_device_control(&serial->parent, RT_DEVICE_CTRL_CONSOLE_OFLAG, &oflags); error = rt_device_open(&serial->parent, oflags); if (!error) { /** * to avoid driver accesssing null data, * these are setup only after tty is registered */ _setup_serial(serial, tp, softc); } return error; } static void serial_tty_close(struct lwp_tty *tp) { struct serial_tty_context *softc; struct rt_serial_device *serial; softc = tty_softc(tp); serial = softc->parent; LOG_D("%s", __func__); _restore_serial(serial, tp, softc); rt_device_close(&serial->parent); } static int serial_tty_ioctl(struct lwp_tty *tp, rt_ubase_t cmd, rt_caddr_t data, struct rt_thread *td) { int error; switch (cmd) { default: /** * Note: for the most case, we don't let serial layer handle ioctl, * for that they can't act properly regarding to the process * management system, since it is unawared of that. So a ENOSYS is * returned and caused the TTY layer to handle ioctl itself. */ error = -ENOSYS; break; } return error; } static int serial_tty_param(struct lwp_tty *tp, struct termios *t) { struct serial_tty_context *softc = (struct serial_tty_context *)(tp->t_devswsoftc); struct rt_serial_device *serial; RT_ASSERT(softc); serial = softc->parent; cfsetispeed(t, t->__c_ispeed); return rt_device_control(&(serial->parent), TCSETS, t); } static struct lwp_ttydevsw serial_ttydevsw = { .tsw_open = serial_tty_open, .tsw_close = serial_tty_close, .tsw_ioctl = serial_tty_ioctl, .tsw_param = serial_tty_param, .tsw_outwakeup = serial_tty_outwakeup, }; rt_err_t rt_hw_serial_register_tty(struct rt_serial_device *serial) { rt_err_t rc; lwp_tty_t tty; char *dev_name; struct serial_tty_context *softc; if (serial->rx_notify.dev) { return -RT_EBUSY; } softc = rt_malloc(sizeof(struct serial_tty_context)); if (softc) { dev_name = alloc_device_name(serial); if (dev_name) { softc->parent = serial; tty = lwp_tty_create(&serial_ttydevsw, softc); if (tty) { _serial_tty_set_speed(tty); rc = lwp_tty_register(tty, dev_name); rt_work_init(&softc->work, _tty_rx_worker, tty); if (rc != RT_EOK) { rt_free(tty); rt_free(softc); } } else { rt_free(softc); rc = -RT_ENOMEM; } rt_free(dev_name); } else { rt_free(softc); rc = -RT_ENOMEM; } } else { rc = -RT_ENOMEM; } return rc; } rt_err_t rt_hw_serial_unregister_tty(struct rt_serial_device *serial) { rt_device_t tty_dev; lwp_tty_t tp; struct serial_tty_context *softc; tty_dev = serial->rx_notify.dev; tp = rt_container_of(tty_dev, struct lwp_tty, parent); /* restore serial setting */ softc = tty_softc(tp); serial->rx_notify = softc->backup_notify; tty_lock(tp); tty_rel_gone(tp); /* device unregister? */ rt_device_destroy(&tp->parent); /* resource free? */ lwp_tty_delete(tp); return RT_EOK; } static int _tty_workqueue_init(void) { if (_ttyworkq != RT_NULL) return RT_EOK; _ttyworkq = rt_workqueue_create("ttyworkq", RT_SYSTEM_WORKQUEUE_STACKSIZE, LWP_TTY_WORKQUEUE_PRIORITY); RT_ASSERT(_ttyworkq != RT_NULL); _setup_debug_rxind_hook(); return RT_EOK; } INIT_PREV_EXPORT(_tty_workqueue_init); static rt_err_t _match_tty_iter(struct rt_object *obj, void *data) { rt_device_t target = *(rt_device_t *)data; rt_device_t device = rt_container_of(obj, struct rt_device, parent); if (device->type == RT_Device_Class_Char) { lwp_tty_t tp; if (rt_strncmp(obj->name, "tty"TTY_NAME_PREFIX, sizeof("tty"TTY_NAME_PREFIX) - 1) == 0) { struct serial_tty_context *softc; tp = rt_container_of(device, struct lwp_tty, parent); softc = tty_softc(tp); if (&softc->parent->parent == target) { /* matched, early return */ *(rt_device_t *)data = device; return 1; } } } return RT_EOK; } /** * @brief The default console is only a backup device with lowest priority. * It's always recommended to scratch the console from the boot arguments. * And dont forget to register the device with a higher priority. */ static int _default_console_setup(void) { rt_err_t rc; rt_device_t bakdev; rt_device_t ttydev; bakdev = rt_console_get_device(); if (!bakdev) { return -RT_ENOENT; } ttydev = bakdev; rt_object_for_each(RT_Object_Class_Device, _match_tty_iter, &ttydev); if (ttydev != bakdev) { LOG_I("Using /dev/%.*s as default console", RT_NAME_MAX, ttydev->parent.name); lwp_console_register_backend(ttydev, LWP_CONSOLE_LOWEST_PRIOR); rc = RT_EOK; } else { rc = -RT_EINVAL; } return rc; } INIT_COMPONENT_EXPORT(_default_console_setup);