use core::any::Any; use alloc::{ string::{String, ToString}, sync::{Arc, Weak}, }; use crate::{ driver::acpi::acpi_manager, filesystem::kernfs::KernFSInode, libs::rwlock::{RwLock, RwLockReadGuard, RwLockWriteGuard}, }; use system_error::SystemError; use super::{ class::Class, device::{ bus::{subsystem_manager, Bus}, driver::Driver, Device, DeviceCommonData, DeviceType, IdTable, }, kobject::{KObjType, KObject, KObjectCommonData, KObjectState, LockedKObjectState}, kset::KSet, subsys::SubSysPrivate, }; #[inline(always)] pub fn cpu_device_manager() -> &'static CpuDeviceManager { return &CpuDeviceManager; } #[derive(Debug)] pub struct CpuDeviceManager; impl CpuDeviceManager { /// 初始化设备驱动模型的CPU子系统 /// /// 参考 https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/cpu.c?fi=get_cpu_device#622 pub fn init(&self) -> Result<(), SystemError> { let cpu_subsys = CpuSubSystem::new(); let root_device = CpuSubSystemFakeRootDevice::new(); subsystem_manager() .subsys_system_register( &(cpu_subsys as Arc), &(root_device as Arc), ) .expect("register cpu subsys failed"); return Ok(()); } } /// cpu子系统 /// /// 参考 https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/base/cpu.c?fi=get_cpu_device#128 #[derive(Debug)] struct CpuSubSystem { subsys_private: SubSysPrivate, } impl CpuSubSystem { pub fn new() -> Arc { let bus = Arc::new(Self { subsys_private: SubSysPrivate::new("cpu".to_string(), None, None, &[]), }); bus.subsystem() .set_bus(Some(Arc::downgrade(&(bus.clone() as Arc)))); return bus; } } impl Bus for CpuSubSystem { fn name(&self) -> String { "cpu".to_string() } fn dev_name(&self) -> String { self.name() } fn remove(&self, _device: &Arc) -> Result<(), SystemError> { todo!() } fn shutdown(&self, _device: &Arc) { todo!() } fn resume(&self, _device: &Arc) -> Result<(), SystemError> { todo!() } fn match_device( &self, device: &Arc, driver: &Arc, ) -> Result { // ACPI style match is the only one that may succeed. return acpi_manager().driver_match_device(driver, device); } fn subsystem(&self) -> &SubSysPrivate { &self.subsys_private } } #[derive(Debug)] #[cast_to([sync] Device)] pub struct CpuSubSystemFakeRootDevice { inner: RwLock, kobj_state: LockedKObjectState, } impl CpuSubSystemFakeRootDevice { pub fn new() -> Arc { return Arc::new(Self { inner: RwLock::new(InnerCpuSubSystemFakeRootDevice::new()), kobj_state: LockedKObjectState::new(None), }); } } #[derive(Debug)] struct InnerCpuSubSystemFakeRootDevice { kobject_common: KObjectCommonData, device_common: DeviceCommonData, name: String, } impl InnerCpuSubSystemFakeRootDevice { pub fn new() -> Self { return Self { kobject_common: KObjectCommonData::default(), device_common: DeviceCommonData::default(), name: "".to_string(), }; } } impl Device for CpuSubSystemFakeRootDevice { fn dev_type(&self) -> DeviceType { todo!() } fn id_table(&self) -> IdTable { IdTable::new("cpu".to_string(), None) } fn set_bus(&self, bus: Option>) { self.inner.write().device_common.bus = bus; } fn bus(&self) -> Option> { self.inner.read().device_common.bus.clone() } fn driver(&self) -> Option> { None } fn set_driver(&self, _driver: Option>) { todo!() } fn is_dead(&self) -> bool { false } fn can_match(&self) -> bool { todo!() } fn set_can_match(&self, _can_match: bool) { todo!() } fn state_synced(&self) -> bool { true } fn set_class(&self, _class: Option>) { todo!() } fn dev_parent(&self) -> Option> { self.inner.read().device_common.parent.clone() } fn set_dev_parent(&self, dev_parent: Option>) { self.inner.write().device_common.parent = dev_parent; } } impl KObject for CpuSubSystemFakeRootDevice { fn as_any_ref(&self) -> &dyn Any { self } fn set_inode(&self, inode: Option>) { self.inner.write().kobject_common.kern_inode = inode; } fn inode(&self) -> Option> { self.inner.read().kobject_common.kern_inode.clone() } fn parent(&self) -> Option> { self.inner.read().kobject_common.parent.clone() } fn set_parent(&self, parent: Option>) { self.inner.write().kobject_common.parent = parent; } fn kset(&self) -> Option> { self.inner.read().kobject_common.kset.clone() } fn set_kset(&self, kset: Option>) { self.inner.write().kobject_common.kset = kset; } fn kobj_type(&self) -> Option<&'static dyn KObjType> { self.inner.read().kobject_common.kobj_type } fn set_kobj_type(&self, ktype: Option<&'static dyn KObjType>) { self.inner.write().kobject_common.kobj_type = ktype; } fn name(&self) -> String { self.inner.read().name.clone() } fn set_name(&self, name: String) { self.inner.write().name = name; } fn kobj_state(&self) -> RwLockReadGuard { self.kobj_state.read() } fn kobj_state_mut(&self) -> RwLockWriteGuard { self.kobj_state.write() } fn set_kobj_state(&self, state: KObjectState) { *self.kobj_state_mut() = state; } }