use super::{ driver::{Driver, DriverMatchName, DriverMatcher}, sys_devices_kset, Device, DeviceMatchName, DeviceMatcher, DeviceState, }; use crate::{ driver::base::{ device::{device_manager, driver::driver_manager}, kobject::{KObjType, KObject, KObjectManager}, kset::KSet, subsys::SubSysPrivate, }, filesystem::{ sysfs::{ file::sysfs_emit_str, sysfs_instance, Attribute, AttributeGroup, SysFSOps, SysFSOpsSupport, SYSFS_ATTR_MODE_RW, SYSFS_ATTR_MODE_WO, }, vfs::syscall::ModeType, }, libs::rwlock::RwLock, }; use alloc::{ string::{String, ToString}, sync::{Arc, Weak}, }; use core::{ffi::CStr, fmt::Debug, intrinsics::unlikely}; use hashbrown::HashMap; use intertrait::cast::CastArc; use system_error::SystemError; /// `/sys/bus`的kset static mut BUS_KSET_INSTANCE: Option> = None; /// `/sys/devices/system`的kset static mut DEVICES_SYSTEM_KSET_INSTANCE: Option> = None; static mut BUS_MANAGER_INSTANCE: Option = None; #[inline(always)] pub fn sys_bus_kset() -> Arc { unsafe { BUS_KSET_INSTANCE.clone().unwrap() } } #[inline(always)] #[allow(dead_code)] pub fn sys_devices_system_kset() -> Arc { unsafe { DEVICES_SYSTEM_KSET_INSTANCE.clone().unwrap() } } #[inline(always)] pub fn bus_manager() -> &'static BusManager { unsafe { BUS_MANAGER_INSTANCE.as_ref().unwrap() } } #[inline(always)] pub fn subsystem_manager() -> &'static SubSystemManager { &SubSystemManager } /// @brief: 总线状态 #[derive(Debug, Copy, Clone)] pub enum BusState { NotInitialized = 0, // 未初始化 Initialized = 1, // 已初始化 UnDefined = 2, // 未定义的 } /// @brief: 将u32类型转换为总线状态类型 impl From for BusState { fn from(state: u32) -> Self { match state { 0 => BusState::NotInitialized, 1 => BusState::Initialized, _ => BusState::UnDefined, } } } /// @brief: 将总线状态类型转换为u32类型 impl From for BusState { fn from(state: DeviceState) -> Self { match state { DeviceState::Initialized => BusState::Initialized, DeviceState::NotInitialized => BusState::NotInitialized, DeviceState::UnDefined => BusState::UnDefined, } } } /// @brief: 将总线状态类型转换为设备状态类型 impl From for DeviceState { fn from(state: BusState) -> Self { match state { BusState::Initialized => DeviceState::Initialized, BusState::NotInitialized => DeviceState::NotInitialized, BusState::UnDefined => DeviceState::UnDefined, } } } /// 总线子系统的trait,所有总线都应实现该trait /// /// 请注意,这个trait是用于实现总线子系统的,而不是总线驱动/总线设备。 /// https://code.dragonos.org.cn/xref/linux-6.1.9/include/linux/device/bus.h#84 pub trait Bus: Debug + Send + Sync { fn name(&self) -> String; /// Used for subsystems to enumerate devices like ("foo%u", dev->id). fn dev_name(&self) -> String; fn root_device(&self) -> Option> { None } fn set_root_device(&self, _dev: Option>) {} /// 总线上的设备的默认属性组 fn dev_groups(&self) -> &'static [&'static dyn AttributeGroup] { &[] } /// 总线的默认属性组 fn bus_groups(&self) -> &'static [&'static dyn AttributeGroup] { &[] } /// 总线上的驱动的默认属性组 fn drv_groups(&self) -> &'static [&'static dyn AttributeGroup] { &[] } /// 检查设备是否可以被总线绑定,如果可以,就绑定它们。 /// 绑定之后,device的driver字段会被设置为驱动实例。 /// /// ## 参数 /// /// - `device` - 设备实例 /// /// ## 默认实现 /// /// 如果总线不支持该操作,返回`SystemError::EOPNOTSUPP_OR_ENOTSUP` fn probe(&self, _device: &Arc) -> Result<(), SystemError> { return Err(SystemError::EOPNOTSUPP_OR_ENOTSUP); } fn remove(&self, _device: &Arc) -> Result<(), SystemError>; fn sync_state(&self, _device: &Arc) {} fn shutdown(&self, _device: &Arc); fn suspend(&self, _device: &Arc) { // todo: implement suspend } fn resume(&self, device: &Arc) -> Result<(), SystemError>; /// match platform device to platform driver. /// /// ## 参数 /// /// * `device` - platform device /// * `driver` - platform driver /// /// ## 返回 /// /// - `Ok(true)` - 匹配成功 /// - `Ok(false)` - 匹配失败 /// - `Err(_)` - 由于内部错误导致匹配失败 /// - `Err(SystemError::ENOSYS)` - 该总线不支持该操作 fn match_device( &self, _device: &Arc, _driver: &Arc, ) -> Result { return Err(SystemError::ENOSYS); } fn subsystem(&self) -> &SubSysPrivate; /// 对当前总线操作的时候需要获取父级总线的锁 fn need_parent_lock(&self) -> bool { false } } impl dyn Bus { /// 在bus上,根据条件寻找一个特定的设备 /// /// ## 参数 /// /// - `matcher` - 匹配器 /// - `data` - 传给匹配器的数据 pub fn find_device( &self, matcher: &dyn DeviceMatcher, data: T, ) -> Option> { let subsys = self.subsystem(); let guard = subsys.devices(); for dev in guard.iter() { if matcher.match_device(dev, data) { return Some(dev.clone()); } } return None; } /// 根据名称匹配设备 /// /// ## 参数 /// /// - name 设备名称 pub fn find_device_by_name(&self, name: &str) -> Option> { return self.find_device(&DeviceMatchName, name); } /// 在bus上,根据条件寻找一个特定的驱动 /// /// ## 参数 /// /// - `matcher` - 匹配器 /// - `data` - 传给匹配器的数据 pub fn find_driver( &self, matcher: &dyn DriverMatcher, data: T, ) -> Option> { let subsys = self.subsystem(); let guard = subsys.drivers(); for drv in guard.iter() { if matcher.match_driver(drv, data) { return Some(drv.clone()); } } return None; } /// 根据名称在bus上匹配驱动 pub fn find_driver_by_name(&self, name: &str) -> Option> { return self.find_driver(&DriverMatchName, name); } } /// @brief: 总线管理结构体 #[derive(Debug)] pub struct BusManager { /// 存储总线bus的kset结构体与bus实例的映射(用于在sysfs callback的时候,根据kset找到bus实例) kset_bus_map: RwLock, Arc>>, } impl BusManager { pub fn new() -> Self { return Self { kset_bus_map: RwLock::new(HashMap::new()), }; } /// 把一个设备添加到总线上 /// /// ## 描述 /// /// - 添加一个设备的与bus相关的属性 /// - 在bus和设备文件夹下,创建软链接 /// - 把设备添加到它的总线的设备列表中 /// /// 参考: https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/bus.c?fi=bus_add_device#441 /// /// ## 参数 /// /// - `dev` - 要被添加的设备 pub fn add_device(&self, dev: &Arc) -> Result<(), SystemError> { let bus = dev.bus().and_then(|bus| bus.upgrade()); if let Some(bus) = bus { device_manager().add_groups(dev, bus.dev_groups())?; // 增加符号链接 let bus_devices_kset = bus .subsystem() .devices_kset() .expect("bus devices kset is none, maybe bus is not registered"); let dev_kobj = dev.clone() as Arc; sysfs_instance().create_link( Some(&bus_devices_kset.as_kobject()), &dev_kobj, dev.name(), )?; sysfs_instance().create_link( Some(&dev_kobj), &bus.subsystem().subsys().as_kobject(), "subsystem".to_string(), )?; bus.subsystem().add_device_to_vec(dev)?; } return Ok(()); } /// 在总线上添加一个驱动 /// /// 参考 https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/bus.c?fi=bus_add_driver#590 pub fn add_driver(&self, driver: &Arc) -> Result<(), SystemError> { let bus = driver .bus() .and_then(|bus| bus.upgrade()) .ok_or(SystemError::EINVAL)?; kdebug!("bus '{}' add driver '{}'", bus.name(), driver.name()); driver.set_kobj_type(Some(&BusDriverKType)); let kobj = driver.clone() as Arc; KObjectManager::add_kobj(kobj, bus.subsystem().drivers_kset())?; bus.subsystem().add_driver_to_vec(driver)?; if bus.subsystem().drivers_autoprobe() { let r = driver_manager().driver_attach(driver); if let Err(e) = r { bus.subsystem().remove_driver_from_vec(driver); return Err(e); } } driver_manager() .add_groups(driver, bus.drv_groups()) .map_err(|e| { kerror!( "BusManager::add_driver: driver '{:?}' add_groups failed, err: '{:?}", driver.name(), e ); e }) .ok(); if !driver.suppress_bind_attrs() { self.add_bind_files(driver) .map_err(|e| { kerror!( "BusManager::add_driver: driver '{:?}' add_bind_files failed, err: '{:?}", driver.name(), e ); e }) .ok(); } return Ok(()); } /// /// bus_register - register a driver-core subsystem /// /// ## 参数 /// - `bus` - bus to register /// /// Once we have that, we register the bus with the kobject /// infrastructure, then register the children subsystems it has: /// the devices and drivers that belong to the subsystem. /// /// 参考: https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/bus.c?fi=bus_register#783 /// /// todo: 增加错误处理逻辑 pub fn register(&self, bus: Arc) -> Result<(), SystemError> { bus.subsystem().set_bus(Some(Arc::downgrade(&bus))); let subsys_kset = bus.subsystem().subsys(); subsys_kset.set_name(bus.name()); bus.subsystem().set_drivers_autoprobe(true); subsys_kset.register(Some(sys_bus_kset()))?; let devices_kset = KSet::new_and_add("devices".to_string(), None, Some(subsys_kset.clone()))?; bus.subsystem().set_devices_kset(devices_kset); let drivers_kset = KSet::new_and_add("drivers".to_string(), None, Some(subsys_kset.clone()))?; bus.subsystem().set_drivers_kset(drivers_kset); self.add_probe_files(&bus)?; let bus_groups = bus.bus_groups(); self.add_groups(&bus, bus_groups)?; // 把bus实例添加到总线管理器中(方便在sysfs callback的时候,根据kset找到bus实例) self.kset_bus_map.write().insert(subsys_kset, bus.clone()); return Ok(()); } pub fn unregister(&self, _bus: Arc) -> Result<(), SystemError> { todo!("bus_unregister") } fn add_probe_files(&self, bus: &Arc) -> Result<(), SystemError> { self.create_file(bus, &BusAttrDriversProbe)?; let r = self.create_file(bus, &BusAttrDriversAutoprobe); if r.is_err() { self.remove_file(bus, &BusAttrDriversProbe); } return r; } #[allow(dead_code)] fn remove_probe_files(&self, bus: &Arc) { self.remove_file(bus, &BusAttrDriversAutoprobe); self.remove_file(bus, &BusAttrDriversProbe); } fn create_file( &self, bus: &Arc, attr: &'static dyn Attribute, ) -> Result<(), SystemError> { let bus_kobj = bus.subsystem().subsys() as Arc; return sysfs_instance().create_file(&bus_kobj, attr); } fn remove_file(&self, bus: &Arc, attr: &'static dyn Attribute) { let bus_kobj = bus.subsystem().subsys() as Arc; sysfs_instance().remove_file(&bus_kobj, attr); } #[inline] fn add_groups( &self, bus: &Arc, groups: &[&'static dyn AttributeGroup], ) -> Result<(), SystemError> { let bus_kobj = bus.subsystem().subsys() as Arc; return sysfs_instance().create_groups(&bus_kobj, groups); } /// 根据bus的kset找到bus实例 fn get_bus_by_kset(&self, kset: &Arc) -> Option> { return self.kset_bus_map.read().get(kset).cloned(); } /// 为bus上的设备选择可能的驱动程序 /// /// 这个函数会扫描总线上的所有没有驱动的设备,然后为它们选择可能的驱动程序。 /// /// ## 参数 /// /// - `bus` - bus实例 #[allow(dead_code)] pub fn rescan_devices(&self, bus: &Arc) -> Result<(), SystemError> { for dev in bus.subsystem().devices().iter() { rescan_devices_helper(dev)?; } return Ok(()); } /// 为新设备探测驱动 /// /// Automatically probe for a driver if the bus allows it. pub fn probe_device(&self, dev: &Arc) { let bus = dev.bus().and_then(|bus| bus.upgrade()); if bus.is_none() { return; } let bus = bus.unwrap(); if bus.subsystem().drivers_autoprobe() { device_manager().device_initial_probe(dev).ok(); } for interface in bus.subsystem().interfaces() { interface.add_device(dev).ok(); } } /// 从总线上移除一个驱动 /// /// Detach the driver from the devices it controls, and remove /// it from its bus's list of drivers. Finally, we drop the reference /// to the bus. /// /// ## 参数 /// /// - `driver` - 驱动实例 /// /// 参考 https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/bus.c?fi=bus_remove_driver#666 pub fn remove_driver(&self, _driver: &Arc) { todo!("BusManager::remove_driver") } fn add_bind_files(&self, driver: &Arc) -> Result<(), SystemError> { driver_manager().create_attr_file(driver, &DriverAttrUnbind)?; driver_manager() .create_attr_file(driver, &DriverAttrBind) .map_err(|e| { driver_manager().remove_attr_file(driver, &DriverAttrUnbind); e })?; return Ok(()); } } /// 参考: https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/bus.c?r=&mo=5649&fi=241#684 fn rescan_devices_helper(dev: &Arc) -> Result<(), SystemError> { if dev.driver().is_none() { let need_parent_lock = dev .bus() .map(|bus| bus.upgrade().unwrap().need_parent_lock()) .unwrap_or(false); if unlikely(need_parent_lock) { // todo: lock device parent unimplemented!() } device_manager().device_attach(dev)?; } return Ok(()); } /// /// bus_register - register a driver-core subsystem /// /// ## 参数 /// - `bus` - bus to register /// /// Once we have that, we register the bus with the kobject /// infrastructure, then register the children subsystems it has: /// the devices and drivers that belong to the subsystem. pub fn bus_register(bus: Arc) -> Result<(), SystemError> { return bus_manager().register(bus); } /// @brief: 总线注销,并在sys/bus和sys/devices下删除文件夹 /// @parameter bus: Bus设备实体 /// @return: 成功:() 失败:SystemError #[allow(dead_code)] pub fn bus_unregister(bus: Arc) -> Result<(), SystemError> { return bus_manager().unregister(bus); } pub fn buses_init() -> Result<(), SystemError> { let bus_kset = KSet::new("bus".to_string()); bus_kset.register(None).expect("bus kset register failed"); unsafe { BUS_KSET_INSTANCE = Some(bus_kset); } // 初始化 /sys/devices/system { let devices_system_kset = KSet::new("system".to_string()); let parent = sys_devices_kset() as Arc; devices_system_kset.set_parent(Some(Arc::downgrade(&parent))); devices_system_kset .register(Some(sys_devices_kset())) .expect("devices system kset register failed"); unsafe { DEVICES_SYSTEM_KSET_INSTANCE = Some(devices_system_kset); } } // 初始化总线管理器 { let bus_manager = BusManager::new(); unsafe { BUS_MANAGER_INSTANCE = Some(bus_manager); } } return Ok(()); } /// 把一个设备添加到总线上 /// /// ## 描述 /// /// - 添加一个设备的与bus相关的属性 /// - 在bus和设备文件夹下,创建软链接 /// - 把设备添加到它的总线的设备列表中 /// /// 参考: https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/bus.c?fi=bus_add_device#441 /// /// ## 参数 /// /// - `dev` - 要被添加的设备 pub fn bus_add_device(dev: &Arc) -> Result<(), SystemError> { return bus_manager().add_device(dev); } /// 自动为设备在总线上寻找可用的驱动程序 /// /// Automatically probe for a driver if the bus allows it. /// /// ## 参数 /// /// - `dev` - 要被添加的设备 /// /// 参考: https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/bus.c?fi=bus_probe_device#478 pub fn bus_probe_device(dev: &Arc) { kinfo!("bus_probe_device: dev: {:?}", dev.name()); bus_manager().probe_device(dev); } #[derive(Debug)] struct BusAttrDriversProbe; impl Attribute for BusAttrDriversProbe { fn mode(&self) -> ModeType { return ModeType::S_IWUSR; } fn name(&self) -> &str { return "drivers_probe"; } fn support(&self) -> SysFSOpsSupport { return SysFSOpsSupport::ATTR_STORE; } /// 参考: https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/bus.c?r=&mo=5649&fi=241#241 fn store(&self, kobj: Arc, buf: &[u8]) -> Result { let kset: Arc = kobj.arc_any().downcast().map_err(|_| SystemError::EINVAL)?; let bus = bus_manager() .get_bus_by_kset(&kset) .ok_or(SystemError::EINVAL)?; let name = CStr::from_bytes_with_nul(buf) .map_err(|_| SystemError::EINVAL)? .to_str() .map_err(|_| SystemError::EINVAL)?; let device = bus.find_device_by_name(name).ok_or(SystemError::ENODEV)?; if rescan_devices_helper(&device).is_ok() { return Ok(buf.len()); } return Err(SystemError::EINVAL); } } #[derive(Debug)] struct BusAttrDriversAutoprobe; impl Attribute for BusAttrDriversAutoprobe { fn mode(&self) -> ModeType { SYSFS_ATTR_MODE_RW } fn name(&self) -> &str { return "drivers_autoprobe"; } fn support(&self) -> SysFSOpsSupport { return SysFSOpsSupport::ATTR_STORE | SysFSOpsSupport::ATTR_SHOW; } /// 参考: https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/bus.c?r=&mo=5649&fi=241#231 fn store(&self, kobj: Arc, buf: &[u8]) -> Result { if buf.is_empty() { return Ok(0); } let kset: Arc = kobj.arc_any().downcast().map_err(|_| SystemError::EINVAL)?; let bus = bus_manager() .get_bus_by_kset(&kset) .ok_or(SystemError::EINVAL)?; if buf[0] == b'0' { bus.subsystem().set_drivers_autoprobe(false); } else { bus.subsystem().set_drivers_autoprobe(true); } return Ok(buf.len()); } /// 参考: https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/bus.c?r=&mo=5649&fi=241#226 fn show(&self, kobj: Arc, buf: &mut [u8]) -> Result { let kset: Arc = kobj.arc_any().downcast().map_err(|_| SystemError::EINVAL)?; let bus = bus_manager() .get_bus_by_kset(&kset) .ok_or(SystemError::EINVAL)?; let val = if bus.subsystem().drivers_autoprobe() { 1 } else { 0 }; return sysfs_emit_str(buf, format!("{val}\n").as_str()); } } #[allow(dead_code)] #[derive(Debug, Clone, Copy)] pub enum BusNotifyEvent { /// 一个设备被添加到总线上 AddDevice, /// 一个设备将要被移除 DelDevice, /// 一个设备已经被移除 RemovedDevice, /// 一个驱动将要被绑定 BindDriver, /// 一个驱动已经被绑定 BoundDriver, /// 一个驱动将要被解绑 UnbindDriver, /// 一个驱动已经被解绑 UnboundDriver, /// 驱动绑定失败 DriverNotBound, } #[derive(Debug)] struct BusDriverKType; impl KObjType for BusDriverKType { fn sysfs_ops(&self) -> Option<&dyn SysFSOps> { Some(&BusDriverSysFSOps) } fn attribute_groups(&self) -> Option<&'static [&'static dyn AttributeGroup]> { None } } #[derive(Debug)] struct BusDriverSysFSOps; impl SysFSOps for BusDriverSysFSOps { #[inline] fn show( &self, kobj: Arc, attr: &dyn Attribute, buf: &mut [u8], ) -> Result { attr.show(kobj, buf) } #[inline] fn store( &self, kobj: Arc, attr: &dyn Attribute, buf: &[u8], ) -> Result { attr.store(kobj, buf) } } #[derive(Debug)] struct DriverAttrUnbind; impl Attribute for DriverAttrUnbind { fn mode(&self) -> ModeType { SYSFS_ATTR_MODE_WO } fn name(&self) -> &str { "unbind" } fn store(&self, kobj: Arc, buf: &[u8]) -> Result { let driver = kobj.cast::().map_err(|kobj| { kerror!( "Intertrait casting not implemented for kobj: {}", kobj.name() ); SystemError::EOPNOTSUPP_OR_ENOTSUP })?; let bus = driver .bus() .and_then(|bus| bus.upgrade()) .ok_or(SystemError::ENODEV)?; let s = CStr::from_bytes_with_nul(buf) .map_err(|_| SystemError::EINVAL)? .to_str() .map_err(|_| SystemError::EINVAL)?; let dev = bus.find_device_by_name(s).ok_or(SystemError::ENODEV)?; let p = dev.driver().ok_or(SystemError::ENODEV)?; if Arc::ptr_eq(&p, &driver) { device_manager().device_driver_detach(&dev); return Ok(buf.len()); } return Err(SystemError::ENODEV); } fn support(&self) -> SysFSOpsSupport { SysFSOpsSupport::ATTR_STORE } } #[derive(Debug)] struct DriverAttrBind; impl Attribute for DriverAttrBind { fn name(&self) -> &str { "bind" } fn mode(&self) -> ModeType { SYSFS_ATTR_MODE_WO } /* * Manually attach a device to a driver. * Note: the driver must want to bind to the device, * it is not possible to override the driver's id table. */ fn store(&self, kobj: Arc, buf: &[u8]) -> Result { let driver = kobj.cast::().map_err(|kobj| { kerror!( "Intertrait casting not implemented for kobj: {}", kobj.name() ); SystemError::EOPNOTSUPP_OR_ENOTSUP })?; let bus = driver .bus() .and_then(|bus| bus.upgrade()) .ok_or(SystemError::ENODEV)?; let device = bus .find_device_by_name( CStr::from_bytes_with_nul(buf) .map_err(|_| SystemError::EINVAL)? .to_str() .map_err(|_| SystemError::EINVAL)?, ) .ok_or(SystemError::ENODEV)?; if driver_manager().match_device(&driver, &device)? { device_manager().device_driver_attach(&driver, &device)?; return Ok(buf.len()); } return Err(SystemError::ENODEV); } fn support(&self) -> SysFSOpsSupport { SysFSOpsSupport::ATTR_STORE } } #[derive(Debug)] pub struct SubSystemManager; impl SubSystemManager { /// 注册一个子系统,并在`/sys/bus`和指定的父级文件夹下创建子文件夹 /// /// ## 参数 /// /// - `subsys` - 子系统实例 /// - `fake_root_dev` - 该子系统的伪根设备 /// - `parent_of_root` - 该子系统的伪根设备的父级节点 /// /// 参考 https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/bus.c?fi=subsys_system_register#1078 pub fn subsys_register( &self, subsys: &Arc, fake_root_dev: &Arc, parent_of_root: &Arc, ) -> Result<(), SystemError> { bus_manager().register(subsys.clone())?; fake_root_dev.set_name(subsys.name()); fake_root_dev.set_parent(Some(Arc::downgrade(parent_of_root))); device_manager().register(fake_root_dev.clone())?; subsys.set_root_device(Some(Arc::downgrade(fake_root_dev))); return Ok(()); } /// register a subsystem at /sys/devices/system/ /// 并且在/sys/bus和/sys/devices下创建文件夹 /// /// All 'system' subsystems have a /sys/devices/system/ root device /// with the name of the subsystem. The root device can carry subsystem- /// wide attributes. All registered devices are below this single root /// device and are named after the subsystem with a simple enumeration /// number appended. The registered devices are not explicitly named; /// only 'id' in the device needs to be set. pub fn subsys_system_register( &self, subsys: &Arc, fake_root_dev: &Arc, ) -> Result<(), SystemError> { return self.subsys_register( subsys, fake_root_dev, &(sys_devices_system_kset() as Arc), ); } }