use alloc::{ string::{String, ToString}, sync::{Arc, Weak}, }; use system_error::SystemError; use unified_init::macros::unified_init; use crate::{ arch::ipc::signal::Signal, driver::{ base::{ char::CharDevice, class::Class, device::{ bus::Bus, device_number::{DeviceNumber, Major}, device_register, driver::Driver, Device, DeviceKObjType, DeviceType, IdTable, }, kobject::{KObject, LockedKObjectState}, kset::KSet, }, serial::serial_init, }, filesystem::{ devfs::{devfs_register, DevFS, DeviceINode}, kernfs::KernFSInode, vfs::{file::FileMode, syscall::ModeType, FilePrivateData, FileType, IndexNode, Metadata}, }, init::initcall::INITCALL_DEVICE, libs::{ rwlock::{RwLock, RwLockWriteGuard}, spinlock::SpinLockGuard, }, mm::VirtAddr, net::event_poll::{EPollItem, KernelIoctlData}, process::ProcessManager, syscall::user_access::{UserBufferReader, UserBufferWriter}, }; use super::{ kthread::tty_flush_thread_init, pty::unix98pty::ptmx_open, sysfs::sys_class_tty_instance, termios::WindowSize, tty_core::{TtyCore, TtyFlag, TtyIoctlCmd}, tty_driver::{TtyDriver, TtyDriverManager, TtyDriverSubType, TtyDriverType, TtyOperation}, tty_job_control::TtyJobCtrlManager, virtual_terminal::vty_init, }; #[derive(Debug)] pub struct InnerTtyDevice { /// 当前设备所述的kset kset: Option>, parent_kobj: Option>, /// 当前设备所述的总线 bus: Option>, inode: Option>, driver: Option>, can_match: bool, metadata: Metadata, } impl InnerTtyDevice { pub fn new() -> Self { Self { kset: None, parent_kobj: None, bus: None, inode: None, driver: None, can_match: false, metadata: Metadata::new(FileType::CharDevice, ModeType::from_bits_truncate(0o755)), } } pub fn metadata_mut(&mut self) -> &mut Metadata { &mut self.metadata } } #[derive(Debug, PartialEq)] pub enum TtyType { Tty, Pty(PtyType), } #[derive(Debug, PartialEq)] pub enum PtyType { Ptm, Pts, } #[derive(Debug)] #[cast_to([sync] Device)] pub struct TtyDevice { name: String, id_table: IdTable, tty_type: TtyType, inner: RwLock, kobj_state: LockedKObjectState, /// TTY所属的文件系统 fs: RwLock>, } impl TtyDevice { pub fn new(name: String, id_table: IdTable, tty_type: TtyType) -> Arc { let dev_num = id_table.device_number(); let dev = TtyDevice { name, id_table, inner: RwLock::new(InnerTtyDevice::new()), kobj_state: LockedKObjectState::new(None), fs: RwLock::new(Weak::default()), tty_type, }; dev.inner.write().metadata.raw_dev = dev_num; Arc::new(dev) } pub fn inner_write(&self) -> RwLockWriteGuard { self.inner.write() } } impl IndexNode for TtyDevice { fn open( &self, mut data: SpinLockGuard, mode: &crate::filesystem::vfs::file::FileMode, ) -> Result<(), SystemError> { if let FilePrivateData::Tty(_) = &*data { return Ok(()); } if self.tty_type == TtyType::Pty(PtyType::Ptm) { return ptmx_open(data, mode); } let dev_num = self.metadata()?.raw_dev; let (index, driver) = TtyDriverManager::lookup_tty_driver(dev_num).ok_or(SystemError::ENODEV)?; let tty = TtyDriver::open_tty(index, driver)?; // 设置privdata *data = FilePrivateData::Tty(TtyFilePrivateData { tty: tty.clone(), mode: *mode, }); let ret = tty.open(tty.core()); if let Err(err) = ret { if err == SystemError::ENOSYS { return Err(SystemError::ENODEV); } return Err(err); } let driver = tty.core().driver(); // 考虑noctty(当前tty) if !(mode.contains(FileMode::O_NOCTTY) && dev_num == DeviceNumber::new(Major::TTY_MAJOR, 0) || dev_num == DeviceNumber::new(Major::TTYAUX_MAJOR, 1) || (driver.tty_driver_type() == TtyDriverType::Pty && driver.tty_driver_sub_type() == TtyDriverSubType::PtyMaster)) { let pcb = ProcessManager::current_pcb(); let pcb_tty = pcb.sig_info_irqsave().tty(); if pcb_tty.is_none() && tty.core().contorl_info_irqsave().session.is_none() { TtyJobCtrlManager::proc_set_tty(tty); } } Ok(()) } fn read_at( &self, _offset: usize, len: usize, buf: &mut [u8], data: SpinLockGuard, ) -> Result { let (tty, mode) = if let FilePrivateData::Tty(tty_priv) = &*data { (tty_priv.tty(), tty_priv.mode) } else { return Err(SystemError::EIO); }; drop(data); let ld = tty.ldisc(); let mut offset = 0; let mut cookie = false; loop { let mut size = if len > buf.len() { buf.len() } else { len }; size = ld.read(tty.clone(), buf, size, &mut cookie, offset, mode)?; // 没有更多数据 if size == 0 { break; } offset += size; // 缓冲区写满 if offset >= len { break; } // 没有更多数据 if !cookie { break; } } return Ok(offset); } fn write_at( &self, _offset: usize, len: usize, buf: &[u8], data: SpinLockGuard, ) -> Result { let mut count = len; let (tty, mode) = if let FilePrivateData::Tty(tty_priv) = &*data { (tty_priv.tty(), tty_priv.mode) } else { return Err(SystemError::EIO); }; drop(data); let ld = tty.ldisc(); let core = tty.core(); let mut chunk = 2048; if core.flags().contains(TtyFlag::NO_WRITE_SPLIT) { chunk = 65536; } chunk = chunk.min(count); let pcb = ProcessManager::current_pcb(); let mut written = 0; loop { // 至少需要写多少 let size = chunk.min(count); // 将数据从buf拷贝到writebuf let ret = ld.write(tty.clone(), &buf[written..], size, mode)?; written += ret; count -= ret; if count == 0 { break; } if pcb.sig_info_irqsave().sig_pending().has_pending() { return Err(SystemError::ERESTARTSYS); } } if written > 0 { // todo: 更新时间 } Ok(written) } fn fs(&self) -> Arc { todo!() } fn as_any_ref(&self) -> &dyn core::any::Any { self } fn list(&self) -> Result, system_error::SystemError> { todo!() } fn metadata(&self) -> Result { Ok(self.inner.read().metadata.clone()) } fn set_metadata(&self, metadata: &Metadata) -> Result<(), SystemError> { let mut guard = self.inner_write(); guard.metadata = metadata.clone(); Ok(()) } fn close(&self, data: SpinLockGuard) -> Result<(), SystemError> { let (tty, _mode) = if let FilePrivateData::Tty(tty_priv) = &*data { (tty_priv.tty(), tty_priv.mode) } else { return Err(SystemError::EIO); }; drop(data); tty.close(tty.clone()) } fn resize(&self, _len: usize) -> Result<(), SystemError> { Ok(()) } fn kernel_ioctl( &self, arg: Arc, data: &FilePrivateData, ) -> Result { let epitem = arg .arc_any() .downcast::() .map_err(|_| SystemError::EFAULT)?; let _ = UserBufferReader::new( &epitem as *const Arc, core::mem::size_of::>(), false, )?; let (tty, _) = if let FilePrivateData::Tty(tty_priv) = data { (tty_priv.tty(), tty_priv.mode) } else { return Err(SystemError::EIO); }; let core = tty.core(); core.add_epitem(epitem.clone()); return Ok(0); } fn ioctl(&self, cmd: u32, arg: usize, data: &FilePrivateData) -> Result { let (tty, _) = if let FilePrivateData::Tty(tty_priv) = data { (tty_priv.tty(), tty_priv.mode) } else { return Err(SystemError::EIO); }; match cmd { TtyIoctlCmd::TIOCSETD | TtyIoctlCmd::TIOCSBRK | TtyIoctlCmd::TIOCCBRK | TtyIoctlCmd::TCSBRK | TtyIoctlCmd::TCSBRKP => { TtyJobCtrlManager::tty_check_change(tty.clone(), Signal::SIGTTOU)?; if cmd != TtyIoctlCmd::TIOCCBRK { todo!() } } _ => {} } match cmd { TtyIoctlCmd::TIOCGWINSZ => { let core = tty.core(); let winsize = *core.window_size(); let mut user_writer = UserBufferWriter::new( VirtAddr::new(arg).as_ptr::(), core::mem::size_of::(), true, )?; let err = user_writer.copy_one_to_user(&winsize, 0); if err.is_err() { return Err(SystemError::EFAULT); } return Ok(0); } TtyIoctlCmd::TIOCSWINSZ => { let reader = UserBufferReader::new( arg as *const (), core::mem::size_of::(), true, )?; let user_winsize = reader.read_one_from_user::(0)?; let ret = tty.resize(tty.clone(), *user_winsize); if ret != Err(SystemError::ENOSYS) { return ret.map(|_| 0); } else { return tty.tty_do_resize(*user_winsize).map(|_| 0); } } _ => match TtyJobCtrlManager::job_ctrl_ioctl(tty.clone(), cmd, arg) { Ok(_) => { return Ok(0); } Err(e) => { if e != SystemError::ENOIOCTLCMD { return Err(e); } } }, } match tty.ioctl(tty.clone(), cmd, arg) { Ok(_) => { return Ok(0); } Err(e) => { if e != SystemError::ENOIOCTLCMD { return Err(e); } } } tty.ldisc().ioctl(tty, cmd, arg)?; Ok(0) } fn poll(&self, private_data: &FilePrivateData) -> Result { let (tty, _) = if let FilePrivateData::Tty(tty_priv) = private_data { (tty_priv.tty.clone(), tty_priv.mode) } else { return Err(SystemError::EIO); }; tty.ldisc().poll(tty) } } impl DeviceINode for TtyDevice { fn set_fs(&self, fs: alloc::sync::Weak) { *self.fs.write() = fs; } } impl KObject for TtyDevice { fn as_any_ref(&self) -> &dyn core::any::Any { self } fn set_inode(&self, inode: Option>) { self.inner.write().inode = inode; } fn inode(&self) -> Option> { self.inner.read().inode.clone() } fn parent(&self) -> Option> { self.inner.read().parent_kobj.clone() } fn set_parent(&self, parent: Option>) { self.inner.write().parent_kobj = parent } fn kset(&self) -> Option> { self.inner.read().kset.clone() } fn set_kset(&self, kset: Option>) { self.inner.write().kset = kset } fn kobj_type(&self) -> Option<&'static dyn crate::driver::base::kobject::KObjType> { Some(&DeviceKObjType) } fn set_kobj_type(&self, _ktype: Option<&'static dyn crate::driver::base::kobject::KObjType>) {} fn name(&self) -> alloc::string::String { self.name.to_string() } fn set_name(&self, _name: alloc::string::String) { // self.name = name } fn kobj_state( &self, ) -> crate::libs::rwlock::RwLockReadGuard { self.kobj_state.read() } fn kobj_state_mut( &self, ) -> crate::libs::rwlock::RwLockWriteGuard { self.kobj_state.write() } fn set_kobj_state(&self, state: crate::driver::base::kobject::KObjectState) { *self.kobj_state.write() = state } } impl Device for TtyDevice { fn dev_type(&self) -> crate::driver::base::device::DeviceType { DeviceType::Char } fn id_table(&self) -> crate::driver::base::device::IdTable { self.id_table.clone() } fn bus(&self) -> Option> { self.inner.read().bus.clone() } fn set_bus(&self, bus: Option>) { self.inner.write().bus = bus } fn set_class(&self, _class: Option>) { // do nothing } fn class(&self) -> Option> { sys_class_tty_instance() .cloned() .map(|x| x as Arc) } fn driver(&self) -> Option> { self.inner.read().driver.clone()?.upgrade() } fn set_driver( &self, driver: Option>, ) { self.inner.write().driver = driver } fn is_dead(&self) -> bool { false } fn can_match(&self) -> bool { self.inner.read().can_match } fn set_can_match(&self, can_match: bool) { self.inner.write().can_match = can_match } fn state_synced(&self) -> bool { true } fn dev_parent(&self) -> Option> { None } fn set_dev_parent( &self, _dev_parent: Option>, ) { todo!() } } impl CharDevice for TtyDevice { fn read(&self, _len: usize, _buf: &mut [u8]) -> Result { todo!() } fn write(&self, _len: usize, _buf: &[u8]) -> Result { todo!() } fn sync(&self) -> Result<(), SystemError> { todo!() } } #[derive(Debug, Clone)] pub struct TtyFilePrivateData { pub tty: Arc, pub mode: FileMode, } impl TtyFilePrivateData { pub fn tty(&self) -> Arc { self.tty.clone() } } /// 初始化tty设备和console子设备 #[unified_init(INITCALL_DEVICE)] #[inline(never)] pub fn tty_init() -> Result<(), SystemError> { let tty = TtyDevice::new( "tty0".to_string(), IdTable::new( String::from("tty0"), Some(DeviceNumber::new(Major::TTY_MAJOR, 0)), ), TtyType::Tty, ); let console = TtyDevice::new( "console".to_string(), IdTable::new( String::from("console"), Some(DeviceNumber::new(Major::TTYAUX_MAJOR, 1)), ), TtyType::Tty, ); // 注册tty设备 // CharDevOps::cdev_add( // tty.clone() as Arc, // IdTable::new( // String::from("tty0"), // Some(DeviceNumber::new(Major::TTYAUX_MAJOR, 0)), // ), // 1, // )?; // CharDevOps::register_chardev_region(DeviceNumber::new(Major::TTYAUX_MAJOR, 0), 1, "/dev/tty")?; // 注册console设备 // CharDevOps::cdev_add( // console.clone() as Arc, // IdTable::new( // String::from("console"), // Some(DeviceNumber::new(Major::TTYAUX_MAJOR, 1)), // ), // 1, // )?; // CharDevOps::register_chardev_region(DeviceNumber::new(Major::TTYAUX_MAJOR, 1), 1, "/dev/tty")?; // 将这两个设备注册到devfs,TODO:这里console设备应该与tty在一个设备group里面 device_register(tty.clone())?; device_register(console.clone())?; devfs_register(&tty.name.clone(), tty)?; devfs_register(&console.name.clone(), console)?; serial_init()?; tty_flush_thread_init(); return vty_init(); }