1004e86ffSlogin use super::{_port, hba::HbaCmdTable, virt_2_phys}; 2b087521eSChiichen use crate::driver::base::block::block_device::{BlockDevice, BlockId}; 3b087521eSChiichen use crate::driver::base::block::disk_info::Partition; 4b087521eSChiichen use crate::driver::base::block::SeekFrom; 508a2ee40SLoGin use crate::driver::base::class::Class; 606d5e247SLoGin use crate::driver::base::device::bus::Bus; 7ad1d649eSGnoCiYeH 8a03c4f9dSLoGin use crate::driver::base::device::driver::Driver; 906d5e247SLoGin use crate::driver::base::device::{Device, DeviceType, IdTable}; 1006d5e247SLoGin use crate::driver::base::kobject::{KObjType, KObject, KObjectState}; 1106d5e247SLoGin use crate::driver::base::kset::KSet; 12004e86ffSlogin use crate::driver::disk::ahci::HBA_PxIS_TFES; 13a03c4f9dSLoGin 1406d5e247SLoGin use crate::filesystem::kernfs::KernFSInode; 15004e86ffSlogin use crate::filesystem::mbr::MbrDiskPartionTable; 16004e86ffSlogin 17b087521eSChiichen use crate::kdebug; 1806d5e247SLoGin use crate::libs::rwlock::{RwLockReadGuard, RwLockWriteGuard}; 19004e86ffSlogin use crate::libs::{spinlock::SpinLock, vec_cursor::VecCursor}; 204fda81ceSLoGin use crate::mm::{phys_2_virt, verify_area, VirtAddr}; 21004e86ffSlogin use crate::{ 22004e86ffSlogin driver::disk::ahci::hba::{ 23004e86ffSlogin FisRegH2D, FisType, HbaCmdHeader, ATA_CMD_READ_DMA_EXT, ATA_CMD_WRITE_DMA_EXT, 24004e86ffSlogin ATA_DEV_BUSY, ATA_DEV_DRQ, 25004e86ffSlogin }, 26004e86ffSlogin kerror, 27004e86ffSlogin }; 28*91e9d4abSLoGin use system_error::SystemError; 29004e86ffSlogin 30004e86ffSlogin use alloc::sync::Weak; 31004e86ffSlogin use alloc::{string::String, sync::Arc, vec::Vec}; 32004e86ffSlogin 33004e86ffSlogin use core::fmt::Debug; 347ae679ddSLoGin use core::sync::atomic::{compiler_fence, Ordering}; 35004e86ffSlogin use core::{mem::size_of, ptr::write_bytes}; 36004e86ffSlogin 37004e86ffSlogin /// @brief: 只支持MBR分区格式的磁盘结构体 38004e86ffSlogin pub struct AhciDisk { 39004e86ffSlogin pub name: String, 40004e86ffSlogin pub flags: u16, // 磁盘的状态flags 41004e86ffSlogin pub partitions: Vec<Arc<Partition>>, // 磁盘分区数组 42004e86ffSlogin // port: &'static mut HbaPort, // 控制硬盘的端口 43004e86ffSlogin pub ctrl_num: u8, 44004e86ffSlogin pub port_num: u8, 45004e86ffSlogin /// 指向LockAhciDisk的弱引用 46004e86ffSlogin self_ref: Weak<LockedAhciDisk>, 47004e86ffSlogin } 48004e86ffSlogin 49004e86ffSlogin /// @brief: 带锁的AhciDisk 50004e86ffSlogin #[derive(Debug)] 51004e86ffSlogin pub struct LockedAhciDisk(pub SpinLock<AhciDisk>); 52004e86ffSlogin /// 函数实现 53004e86ffSlogin impl Debug for AhciDisk { 54004e86ffSlogin fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { 55004e86ffSlogin write!( 56004e86ffSlogin f, 57004e86ffSlogin "{{ name: {}, flags: {}, part_s: {:?} }}", 58004e86ffSlogin self.name, self.flags, self.partitions 59004e86ffSlogin )?; 60004e86ffSlogin return Ok(()); 61004e86ffSlogin } 62004e86ffSlogin } 63004e86ffSlogin 64004e86ffSlogin impl AhciDisk { 65004e86ffSlogin fn read_at( 66004e86ffSlogin &self, 67b087521eSChiichen lba_id_start: BlockId, // 起始lba编号 68004e86ffSlogin count: usize, // 读取lba的数量 69004e86ffSlogin buf: &mut [u8], 70676b8ef6SMork ) -> Result<usize, SystemError> { 717ae679ddSLoGin assert!((buf.len() & 511) == 0); 72004e86ffSlogin compiler_fence(core::sync::atomic::Ordering::SeqCst); 73004e86ffSlogin let check_length = ((count - 1) >> 4) + 1; // prdt length 747ae679ddSLoGin if count * 512 > buf.len() || check_length > 8 as usize { 75004e86ffSlogin kerror!("ahci read: e2big"); 76004e86ffSlogin // 不可能的操作 77676b8ef6SMork return Err(SystemError::E2BIG); 78004e86ffSlogin } else if count == 0 { 79004e86ffSlogin return Ok(0); 80004e86ffSlogin } 81004e86ffSlogin 82004e86ffSlogin let port = _port(self.ctrl_num, self.port_num); 83004e86ffSlogin volatile_write!(port.is, u32::MAX); // Clear pending interrupt bits 84004e86ffSlogin 85004e86ffSlogin let slot = port.find_cmdslot().unwrap_or(u32::MAX); 86004e86ffSlogin 87004e86ffSlogin if slot == u32::MAX { 88676b8ef6SMork return Err(SystemError::EIO); 89004e86ffSlogin } 90004e86ffSlogin 91004e86ffSlogin #[allow(unused_unsafe)] 92004e86ffSlogin let cmdheader: &mut HbaCmdHeader = unsafe { 93004e86ffSlogin (phys_2_virt( 94004e86ffSlogin volatile_read!(port.clb) as usize 95004e86ffSlogin + slot as usize * size_of::<HbaCmdHeader>() as usize, 96004e86ffSlogin ) as *mut HbaCmdHeader) 97004e86ffSlogin .as_mut() 98004e86ffSlogin .unwrap() 99004e86ffSlogin }; 100004e86ffSlogin 1017ae679ddSLoGin cmdheader.cfl = (size_of::<FisRegH2D>() / size_of::<u32>()) as u8; 102004e86ffSlogin 103004e86ffSlogin volatile_set_bit!(cmdheader.cfl, 1 << 6, false); // Read/Write bit : Read from device 104004e86ffSlogin volatile_write!(cmdheader.prdtl, check_length as u16); // PRDT entries count 105004e86ffSlogin 106004e86ffSlogin // 设置数据存放地址 107004e86ffSlogin let mut buf_ptr = buf as *mut [u8] as *mut usize as usize; 108660a04ceSlogin 109660a04ceSlogin // 由于目前的内存管理机制无法把用户空间的内存地址转换为物理地址,所以只能先把数据拷贝到内核空间 110660a04ceSlogin // TODO:在内存管理重构后,可以直接使用用户空间的内存地址 1114fda81ceSLoGin 1124fda81ceSLoGin let user_buf = verify_area(VirtAddr::new(buf_ptr as usize), buf.len()).is_ok(); 113660a04ceSlogin let mut kbuf = if user_buf { 1147ae679ddSLoGin let mut x: Vec<u8> = Vec::new(); 1157ae679ddSLoGin x.resize(buf.len(), 0); 116660a04ceSlogin Some(x) 117660a04ceSlogin } else { 118660a04ceSlogin None 119660a04ceSlogin }; 120660a04ceSlogin 121660a04ceSlogin if kbuf.is_some() { 122660a04ceSlogin buf_ptr = kbuf.as_mut().unwrap().as_mut_ptr() as usize; 123660a04ceSlogin } 124660a04ceSlogin 125004e86ffSlogin #[allow(unused_unsafe)] 126004e86ffSlogin let cmdtbl = unsafe { 127004e86ffSlogin (phys_2_virt(volatile_read!(cmdheader.ctba) as usize) as *mut HbaCmdTable) 128004e86ffSlogin .as_mut() 129004e86ffSlogin .unwrap() // 必须使用 as_mut ,得到的才是原来的变量 130004e86ffSlogin }; 131004e86ffSlogin let mut tmp_count = count; 132004e86ffSlogin 133004e86ffSlogin unsafe { 134004e86ffSlogin // 清空整个table的旧数据 135004e86ffSlogin write_bytes(cmdtbl, 0, 1); 136004e86ffSlogin } 1377ae679ddSLoGin // kdebug!("cmdheader.prdtl={}", volatile_read!(cmdheader.prdtl)); 138004e86ffSlogin 139004e86ffSlogin // 8K bytes (16 sectors) per PRDT 140004e86ffSlogin for i in 0..((volatile_read!(cmdheader.prdtl) - 1) as usize) { 141004e86ffSlogin volatile_write!(cmdtbl.prdt_entry[i].dba, virt_2_phys(buf_ptr) as u64); 1427ae679ddSLoGin cmdtbl.prdt_entry[i].dbc = 8 * 1024 - 1; 143004e86ffSlogin volatile_set_bit!(cmdtbl.prdt_entry[i].dbc, 1 << 31, true); // 允许中断 prdt_entry.i 144004e86ffSlogin buf_ptr += 8 * 1024; 145004e86ffSlogin tmp_count -= 16; 146004e86ffSlogin } 147004e86ffSlogin 148004e86ffSlogin // Last entry 149004e86ffSlogin let las = (volatile_read!(cmdheader.prdtl) - 1) as usize; 150004e86ffSlogin volatile_write!(cmdtbl.prdt_entry[las].dba, virt_2_phys(buf_ptr) as u64); 1517ae679ddSLoGin cmdtbl.prdt_entry[las].dbc = ((tmp_count << 9) - 1) as u32; // 数据长度 1527ae679ddSLoGin 153004e86ffSlogin volatile_set_bit!(cmdtbl.prdt_entry[las].dbc, 1 << 31, true); // 允许中断 154004e86ffSlogin 155004e86ffSlogin // 设置命令 156004e86ffSlogin let cmdfis = unsafe { 157004e86ffSlogin ((&mut cmdtbl.cfis) as *mut [u8] as *mut usize as *mut FisRegH2D) 158004e86ffSlogin .as_mut() 159004e86ffSlogin .unwrap() 160004e86ffSlogin }; 161004e86ffSlogin volatile_write!(cmdfis.fis_type, FisType::RegH2D as u8); 162004e86ffSlogin volatile_set_bit!(cmdfis.pm, 1 << 7, true); // command_bit set 163004e86ffSlogin volatile_write!(cmdfis.command, ATA_CMD_READ_DMA_EXT); 164004e86ffSlogin 165004e86ffSlogin volatile_write!(cmdfis.lba0, (lba_id_start & 0xFF) as u8); 166004e86ffSlogin volatile_write!(cmdfis.lba1, ((lba_id_start >> 8) & 0xFF) as u8); 167004e86ffSlogin volatile_write!(cmdfis.lba2, ((lba_id_start >> 16) & 0xFF) as u8); 168004e86ffSlogin volatile_write!(cmdfis.lba3, ((lba_id_start >> 24) & 0xFF) as u8); 169004e86ffSlogin volatile_write!(cmdfis.lba4, ((lba_id_start >> 32) & 0xFF) as u8); 170004e86ffSlogin volatile_write!(cmdfis.lba5, ((lba_id_start >> 40) & 0xFF) as u8); 171004e86ffSlogin 172004e86ffSlogin volatile_write!(cmdfis.countl, (count & 0xFF) as u8); 173004e86ffSlogin volatile_write!(cmdfis.counth, ((count >> 8) & 0xFF) as u8); 174004e86ffSlogin 175004e86ffSlogin volatile_write!(cmdfis.device, 1 << 6); // LBA Mode 176004e86ffSlogin 177004e86ffSlogin // 等待之前的操作完成 178004e86ffSlogin let mut spin_count = 0; 179004e86ffSlogin const SPIN_LIMIT: u32 = 10000; 180004e86ffSlogin 181004e86ffSlogin while (volatile_read!(port.tfd) as u8 & (ATA_DEV_BUSY | ATA_DEV_DRQ)) > 0 182004e86ffSlogin && spin_count < SPIN_LIMIT 183004e86ffSlogin { 184004e86ffSlogin spin_count += 1; 185004e86ffSlogin } 186004e86ffSlogin 187004e86ffSlogin if spin_count == SPIN_LIMIT { 188004e86ffSlogin kerror!("Port is hung"); 189676b8ef6SMork return Err(SystemError::EIO); 190004e86ffSlogin } 191004e86ffSlogin 192004e86ffSlogin volatile_set_bit!(port.ci, 1 << slot, true); // Issue command 193004e86ffSlogin // kdebug!("To wait ahci read complete."); 194004e86ffSlogin // 等待操作完成 195004e86ffSlogin loop { 196004e86ffSlogin if (volatile_read!(port.ci) & (1 << slot)) == 0 { 197004e86ffSlogin break; 198004e86ffSlogin } 199004e86ffSlogin if (volatile_read!(port.is) & HBA_PxIS_TFES) > 0 { 200004e86ffSlogin kerror!("Read disk error"); 201676b8ef6SMork return Err(SystemError::EIO); 202004e86ffSlogin } 203004e86ffSlogin } 204004e86ffSlogin 205660a04ceSlogin if kbuf.is_some() { 206660a04ceSlogin buf.copy_from_slice(kbuf.as_ref().unwrap()); 207660a04ceSlogin } 208660a04ceSlogin 209004e86ffSlogin compiler_fence(core::sync::atomic::Ordering::SeqCst); 210004e86ffSlogin // successfully read 211004e86ffSlogin return Ok(count * 512); 212004e86ffSlogin } 213004e86ffSlogin 214004e86ffSlogin fn write_at( 215004e86ffSlogin &self, 216b087521eSChiichen lba_id_start: BlockId, 217004e86ffSlogin count: usize, 218004e86ffSlogin buf: &[u8], 219676b8ef6SMork ) -> Result<usize, SystemError> { 2207ae679ddSLoGin assert!((buf.len() & 511) == 0); 221004e86ffSlogin compiler_fence(core::sync::atomic::Ordering::SeqCst); 222004e86ffSlogin let check_length = ((count - 1) >> 4) + 1; // prdt length 2237ae679ddSLoGin if count * 512 > buf.len() || check_length > 8 as usize { 224004e86ffSlogin // 不可能的操作 225676b8ef6SMork return Err(SystemError::E2BIG); 226004e86ffSlogin } else if count == 0 { 227004e86ffSlogin return Ok(0); 228004e86ffSlogin } 229004e86ffSlogin 230004e86ffSlogin let port = _port(self.ctrl_num, self.port_num); 231004e86ffSlogin 232004e86ffSlogin volatile_write!(port.is, u32::MAX); // Clear pending interrupt bits 233004e86ffSlogin 234004e86ffSlogin let slot = port.find_cmdslot().unwrap_or(u32::MAX); 235004e86ffSlogin 236004e86ffSlogin if slot == u32::MAX { 237676b8ef6SMork return Err(SystemError::EIO); 238004e86ffSlogin } 239004e86ffSlogin 240004e86ffSlogin compiler_fence(core::sync::atomic::Ordering::SeqCst); 241004e86ffSlogin #[allow(unused_unsafe)] 242004e86ffSlogin let cmdheader: &mut HbaCmdHeader = unsafe { 243004e86ffSlogin (phys_2_virt( 244004e86ffSlogin volatile_read!(port.clb) as usize 245004e86ffSlogin + slot as usize * size_of::<HbaCmdHeader>() as usize, 246004e86ffSlogin ) as *mut HbaCmdHeader) 247004e86ffSlogin .as_mut() 248004e86ffSlogin .unwrap() 249004e86ffSlogin }; 250004e86ffSlogin compiler_fence(core::sync::atomic::Ordering::SeqCst); 251004e86ffSlogin 252004e86ffSlogin volatile_write_bit!( 253004e86ffSlogin cmdheader.cfl, 254004e86ffSlogin (1 << 5) - 1 as u8, 255004e86ffSlogin (size_of::<FisRegH2D>() / size_of::<u32>()) as u8 256004e86ffSlogin ); // Command FIS size 257004e86ffSlogin 258004e86ffSlogin volatile_set_bit!(cmdheader.cfl, 7 << 5, true); // (p,c,w)都设置为1, Read/Write bit : Write from device 259004e86ffSlogin volatile_write!(cmdheader.prdtl, check_length as u16); // PRDT entries count 260004e86ffSlogin 261004e86ffSlogin // 设置数据存放地址 262004e86ffSlogin compiler_fence(core::sync::atomic::Ordering::SeqCst); 263004e86ffSlogin let mut buf_ptr = buf as *const [u8] as *mut usize as usize; 264660a04ceSlogin 265660a04ceSlogin // 由于目前的内存管理机制无法把用户空间的内存地址转换为物理地址,所以只能先把数据拷贝到内核空间 266660a04ceSlogin // TODO:在内存管理重构后,可以直接使用用户空间的内存地址 2674fda81ceSLoGin let user_buf = verify_area(VirtAddr::new(buf_ptr as usize), buf.len()).is_ok(); 268660a04ceSlogin let mut kbuf = if user_buf { 269660a04ceSlogin let mut x: Vec<u8> = Vec::with_capacity(buf.len()); 270660a04ceSlogin x.resize(buf.len(), 0); 271660a04ceSlogin x.copy_from_slice(buf); 272660a04ceSlogin Some(x) 273660a04ceSlogin } else { 274660a04ceSlogin None 275660a04ceSlogin }; 276660a04ceSlogin 277660a04ceSlogin if kbuf.is_some() { 278660a04ceSlogin buf_ptr = kbuf.as_mut().unwrap().as_mut_ptr() as usize; 279660a04ceSlogin } 280660a04ceSlogin 281004e86ffSlogin #[allow(unused_unsafe)] 282004e86ffSlogin let cmdtbl = unsafe { 283004e86ffSlogin (phys_2_virt(volatile_read!(cmdheader.ctba) as usize) as *mut HbaCmdTable) 284004e86ffSlogin .as_mut() 285004e86ffSlogin .unwrap() 286004e86ffSlogin }; 287004e86ffSlogin let mut tmp_count = count; 288004e86ffSlogin compiler_fence(core::sync::atomic::Ordering::SeqCst); 289004e86ffSlogin 290004e86ffSlogin unsafe { 291004e86ffSlogin // 清空整个table的旧数据 292004e86ffSlogin write_bytes(cmdtbl, 0, 1); 293004e86ffSlogin } 294004e86ffSlogin 295004e86ffSlogin // 8K bytes (16 sectors) per PRDT 296004e86ffSlogin for i in 0..((volatile_read!(cmdheader.prdtl) - 1) as usize) { 297004e86ffSlogin volatile_write!(cmdtbl.prdt_entry[i].dba, virt_2_phys(buf_ptr) as u64); 298004e86ffSlogin volatile_write_bit!(cmdtbl.prdt_entry[i].dbc, (1 << 22) - 1, 8 * 1024 - 1); // 数据长度 299004e86ffSlogin volatile_set_bit!(cmdtbl.prdt_entry[i].dbc, 1 << 31, true); // 允许中断 300004e86ffSlogin buf_ptr += 8 * 1024; 301004e86ffSlogin tmp_count -= 16; 302004e86ffSlogin } 303004e86ffSlogin 304004e86ffSlogin // Last entry 305004e86ffSlogin let las = (volatile_read!(cmdheader.prdtl) - 1) as usize; 306004e86ffSlogin volatile_write!(cmdtbl.prdt_entry[las].dba, virt_2_phys(buf_ptr) as u64); 307004e86ffSlogin volatile_set_bit!(cmdtbl.prdt_entry[las].dbc, 1 << 31, true); // 允许中断 308004e86ffSlogin volatile_write_bit!( 309004e86ffSlogin cmdtbl.prdt_entry[las].dbc, 310004e86ffSlogin (1 << 22) - 1, 311004e86ffSlogin ((tmp_count << 9) - 1) as u32 312004e86ffSlogin ); // 数据长度 313004e86ffSlogin 314004e86ffSlogin // 设置命令 315004e86ffSlogin let cmdfis = unsafe { 316004e86ffSlogin ((&mut cmdtbl.cfis) as *mut [u8] as *mut usize as *mut FisRegH2D) 317004e86ffSlogin .as_mut() 318004e86ffSlogin .unwrap() 319004e86ffSlogin }; 320004e86ffSlogin volatile_write!(cmdfis.fis_type, FisType::RegH2D as u8); 321004e86ffSlogin volatile_set_bit!(cmdfis.pm, 1 << 7, true); // command_bit set 322004e86ffSlogin volatile_write!(cmdfis.command, ATA_CMD_WRITE_DMA_EXT); 323004e86ffSlogin 324004e86ffSlogin volatile_write!(cmdfis.lba0, (lba_id_start & 0xFF) as u8); 325004e86ffSlogin volatile_write!(cmdfis.lba1, ((lba_id_start >> 8) & 0xFF) as u8); 326004e86ffSlogin volatile_write!(cmdfis.lba2, ((lba_id_start >> 16) & 0xFF) as u8); 327004e86ffSlogin volatile_write!(cmdfis.lba3, ((lba_id_start >> 24) & 0xFF) as u8); 328004e86ffSlogin volatile_write!(cmdfis.lba4, ((lba_id_start >> 32) & 0xFF) as u8); 329004e86ffSlogin volatile_write!(cmdfis.lba5, ((lba_id_start >> 40) & 0xFF) as u8); 330004e86ffSlogin 331004e86ffSlogin volatile_write!(cmdfis.countl, (count & 0xFF) as u8); 332004e86ffSlogin volatile_write!(cmdfis.counth, ((count >> 8) & 0xFF) as u8); 333004e86ffSlogin 334004e86ffSlogin volatile_write!(cmdfis.device, 1 << 6); // LBA Mode 335004e86ffSlogin 336004e86ffSlogin volatile_set_bit!(port.ci, 1 << slot, true); // Issue command 337004e86ffSlogin 338004e86ffSlogin // 等待操作完成 339004e86ffSlogin loop { 340004e86ffSlogin if (volatile_read!(port.ci) & (1 << slot)) == 0 { 341004e86ffSlogin break; 342004e86ffSlogin } 343004e86ffSlogin if (volatile_read!(port.is) & HBA_PxIS_TFES) > 0 { 344004e86ffSlogin kerror!("Write disk error"); 345676b8ef6SMork return Err(SystemError::EIO); 346004e86ffSlogin } 347004e86ffSlogin } 348004e86ffSlogin 349004e86ffSlogin compiler_fence(core::sync::atomic::Ordering::SeqCst); 350004e86ffSlogin // successfully read 351004e86ffSlogin return Ok(count * 512); 352004e86ffSlogin } 353004e86ffSlogin 354676b8ef6SMork fn sync(&self) -> Result<(), SystemError> { 355004e86ffSlogin // 由于目前没有block cache, 因此sync返回成功即可 356004e86ffSlogin return Ok(()); 357004e86ffSlogin } 358004e86ffSlogin } 359004e86ffSlogin 360004e86ffSlogin impl LockedAhciDisk { 361004e86ffSlogin pub fn new( 362004e86ffSlogin name: String, 363004e86ffSlogin flags: u16, 364004e86ffSlogin ctrl_num: u8, 365004e86ffSlogin port_num: u8, 366676b8ef6SMork ) -> Result<Arc<LockedAhciDisk>, SystemError> { 367004e86ffSlogin // 构建磁盘结构体 368004e86ffSlogin let result: Arc<LockedAhciDisk> = Arc::new(LockedAhciDisk(SpinLock::new(AhciDisk { 369004e86ffSlogin name, 370004e86ffSlogin flags, 371004e86ffSlogin partitions: Default::default(), 372004e86ffSlogin ctrl_num, 373004e86ffSlogin port_num, 374004e86ffSlogin self_ref: Weak::default(), 375004e86ffSlogin }))); 376004e86ffSlogin 377004e86ffSlogin let table: MbrDiskPartionTable = result.read_mbr_table()?; 378004e86ffSlogin 379004e86ffSlogin // 求出有多少可用分区 380004e86ffSlogin for i in 0..4 { 3817ae679ddSLoGin compiler_fence(Ordering::SeqCst); 382004e86ffSlogin if table.dpte[i].part_type != 0 { 3837ae679ddSLoGin let w = Arc::downgrade(&result); 3847ae679ddSLoGin result.0.lock().partitions.push(Partition::new( 385004e86ffSlogin table.dpte[i].starting_sector() as u64, 386004e86ffSlogin table.dpte[i].starting_lba as u64, 387004e86ffSlogin table.dpte[i].total_sectors as u64, 3887ae679ddSLoGin w, 389004e86ffSlogin i as u16, 390004e86ffSlogin )); 391004e86ffSlogin } 392004e86ffSlogin } 3937ae679ddSLoGin 3947ae679ddSLoGin result.0.lock().self_ref = Arc::downgrade(&result); 3957ae679ddSLoGin 396004e86ffSlogin return Ok(result); 397004e86ffSlogin } 398004e86ffSlogin 399004e86ffSlogin /// @brief: 从磁盘中读取 MBR 分区表结构体 TODO: Cursor 400676b8ef6SMork pub fn read_mbr_table(&self) -> Result<MbrDiskPartionTable, SystemError> { 401004e86ffSlogin let mut table: MbrDiskPartionTable = Default::default(); 402004e86ffSlogin 403004e86ffSlogin // 数据缓冲区 404004e86ffSlogin let mut buf: Vec<u8> = Vec::new(); 405004e86ffSlogin buf.resize(size_of::<MbrDiskPartionTable>(), 0); 406004e86ffSlogin 4077ae679ddSLoGin self.read_at(0, 1, &mut buf)?; 408004e86ffSlogin // 创建 Cursor 用于按字节读取 409004e86ffSlogin let mut cursor = VecCursor::new(buf); 410004e86ffSlogin cursor.seek(SeekFrom::SeekCurrent(446))?; 411004e86ffSlogin 412004e86ffSlogin for i in 0..4 { 413b087521eSChiichen kdebug!("infomation of partition {}:\n", i); 414004e86ffSlogin 415004e86ffSlogin table.dpte[i].flags = cursor.read_u8()?; 416004e86ffSlogin table.dpte[i].starting_head = cursor.read_u8()?; 417004e86ffSlogin table.dpte[i].starting_sector_cylinder = cursor.read_u16()?; 418004e86ffSlogin table.dpte[i].part_type = cursor.read_u8()?; 419004e86ffSlogin table.dpte[i].ending_head = cursor.read_u8()?; 420004e86ffSlogin table.dpte[i].ending_sector_cylingder = cursor.read_u16()?; 421004e86ffSlogin table.dpte[i].starting_lba = cursor.read_u32()?; 422004e86ffSlogin table.dpte[i].total_sectors = cursor.read_u32()?; 423004e86ffSlogin 424b087521eSChiichen kdebug!("dpte[i] = {:?}", table.dpte[i]); 425004e86ffSlogin } 426004e86ffSlogin table.bs_trailsig = cursor.read_u16()?; 427004e86ffSlogin // kdebug!("bs_trailsig = {}", unsafe { 428004e86ffSlogin // read_unaligned(addr_of!(table.bs_trailsig)) 429004e86ffSlogin // }); 430004e86ffSlogin 431004e86ffSlogin return Ok(table); 432004e86ffSlogin } 433004e86ffSlogin } 434004e86ffSlogin 43506d5e247SLoGin impl KObject for LockedAhciDisk { 43606d5e247SLoGin fn as_any_ref(&self) -> &dyn core::any::Any { 43706d5e247SLoGin self 43806d5e247SLoGin } 43906d5e247SLoGin 44006d5e247SLoGin fn inode(&self) -> Option<Arc<KernFSInode>> { 44106d5e247SLoGin todo!() 44206d5e247SLoGin } 44306d5e247SLoGin 44406d5e247SLoGin fn kobj_type(&self) -> Option<&'static dyn KObjType> { 44506d5e247SLoGin todo!() 44606d5e247SLoGin } 44706d5e247SLoGin 44806d5e247SLoGin fn kset(&self) -> Option<Arc<KSet>> { 44906d5e247SLoGin todo!() 45006d5e247SLoGin } 45106d5e247SLoGin 45206d5e247SLoGin fn parent(&self) -> Option<Weak<dyn KObject>> { 45306d5e247SLoGin todo!() 45406d5e247SLoGin } 45506d5e247SLoGin 45606d5e247SLoGin fn set_inode(&self, _inode: Option<Arc<KernFSInode>>) { 45706d5e247SLoGin todo!() 45806d5e247SLoGin } 45906d5e247SLoGin 46006d5e247SLoGin fn kobj_state(&self) -> RwLockReadGuard<KObjectState> { 46106d5e247SLoGin todo!() 46206d5e247SLoGin } 46306d5e247SLoGin 46406d5e247SLoGin fn kobj_state_mut(&self) -> RwLockWriteGuard<KObjectState> { 46506d5e247SLoGin todo!() 46606d5e247SLoGin } 46706d5e247SLoGin 46806d5e247SLoGin fn set_kobj_state(&self, _state: KObjectState) { 46906d5e247SLoGin todo!() 47006d5e247SLoGin } 47106d5e247SLoGin 47206d5e247SLoGin fn name(&self) -> alloc::string::String { 47306d5e247SLoGin todo!() 47406d5e247SLoGin } 47506d5e247SLoGin 47606d5e247SLoGin fn set_name(&self, _name: alloc::string::String) { 47706d5e247SLoGin todo!() 47806d5e247SLoGin } 47906d5e247SLoGin 48006d5e247SLoGin fn set_kset(&self, _kset: Option<Arc<KSet>>) { 48106d5e247SLoGin todo!() 48206d5e247SLoGin } 48306d5e247SLoGin 48406d5e247SLoGin fn set_parent(&self, _parent: Option<Weak<dyn KObject>>) { 48506d5e247SLoGin todo!() 48606d5e247SLoGin } 487a03c4f9dSLoGin 488a03c4f9dSLoGin fn set_kobj_type(&self, _ktype: Option<&'static dyn KObjType>) { 489a03c4f9dSLoGin todo!() 490a03c4f9dSLoGin } 49106d5e247SLoGin } 492b087521eSChiichen 493b087521eSChiichen impl Device for LockedAhciDisk { 494b087521eSChiichen fn dev_type(&self) -> DeviceType { 495b087521eSChiichen return DeviceType::Block; 496b087521eSChiichen } 497b087521eSChiichen 49806d5e247SLoGin fn id_table(&self) -> IdTable { 499b087521eSChiichen todo!() 500b087521eSChiichen } 501b087521eSChiichen 50206d5e247SLoGin fn bus(&self) -> Option<Arc<dyn Bus>> { 50306d5e247SLoGin todo!("LockedAhciDisk::bus()") 504b087521eSChiichen } 505b087521eSChiichen 506a03c4f9dSLoGin fn set_bus(&self, _bus: Option<Arc<dyn Bus>>) { 507a03c4f9dSLoGin todo!("LockedAhciDisk::set_bus()") 508a03c4f9dSLoGin } 509a03c4f9dSLoGin 51006d5e247SLoGin fn driver(&self) -> Option<Arc<dyn Driver>> { 51106d5e247SLoGin todo!("LockedAhciDisk::driver()") 51206d5e247SLoGin } 51306d5e247SLoGin 51406d5e247SLoGin fn is_dead(&self) -> bool { 51506d5e247SLoGin false 51606d5e247SLoGin } 51706d5e247SLoGin 518a03c4f9dSLoGin fn set_driver(&self, _driver: Option<Weak<dyn Driver>>) { 51906d5e247SLoGin todo!("LockedAhciDisk::set_driver()") 520b087521eSChiichen } 521a03c4f9dSLoGin 522a03c4f9dSLoGin fn can_match(&self) -> bool { 523a03c4f9dSLoGin todo!() 524a03c4f9dSLoGin } 525a03c4f9dSLoGin 526a03c4f9dSLoGin fn set_can_match(&self, _can_match: bool) { 527a03c4f9dSLoGin todo!() 528a03c4f9dSLoGin } 529a03c4f9dSLoGin 530a03c4f9dSLoGin fn state_synced(&self) -> bool { 531a03c4f9dSLoGin todo!() 532a03c4f9dSLoGin } 53308a2ee40SLoGin 53408a2ee40SLoGin fn set_class(&self, _class: Option<Arc<dyn Class>>) { 53508a2ee40SLoGin todo!() 53608a2ee40SLoGin } 537b087521eSChiichen } 538b087521eSChiichen 539004e86ffSlogin impl BlockDevice for LockedAhciDisk { 540004e86ffSlogin #[inline] 541004e86ffSlogin fn as_any_ref(&self) -> &dyn core::any::Any { 542004e86ffSlogin self 543004e86ffSlogin } 544004e86ffSlogin 545004e86ffSlogin #[inline] 546004e86ffSlogin fn blk_size_log2(&self) -> u8 { 547004e86ffSlogin 9 548004e86ffSlogin } 549004e86ffSlogin 550676b8ef6SMork fn sync(&self) -> Result<(), SystemError> { 551004e86ffSlogin return self.0.lock().sync(); 552004e86ffSlogin } 553004e86ffSlogin 554004e86ffSlogin #[inline] 555b087521eSChiichen fn device(&self) -> Arc<dyn Device> { 556004e86ffSlogin return self.0.lock().self_ref.upgrade().unwrap(); 557004e86ffSlogin } 558004e86ffSlogin 559004e86ffSlogin fn block_size(&self) -> usize { 560004e86ffSlogin todo!() 561004e86ffSlogin } 562004e86ffSlogin 563004e86ffSlogin fn partitions(&self) -> Vec<Arc<Partition>> { 564004e86ffSlogin return self.0.lock().partitions.clone(); 565004e86ffSlogin } 566b087521eSChiichen 567b087521eSChiichen #[inline] 568b087521eSChiichen fn read_at( 569b087521eSChiichen &self, 570b087521eSChiichen lba_id_start: BlockId, // 起始lba编号 571b087521eSChiichen count: usize, // 读取lba的数量 572b087521eSChiichen buf: &mut [u8], 573b087521eSChiichen ) -> Result<usize, SystemError> { 574b087521eSChiichen self.0.lock().read_at(lba_id_start, count, buf) 575b087521eSChiichen } 576b087521eSChiichen 577b087521eSChiichen #[inline] 578b087521eSChiichen fn write_at( 579b087521eSChiichen &self, 580b087521eSChiichen lba_id_start: BlockId, 581b087521eSChiichen count: usize, 582b087521eSChiichen buf: &[u8], 583b087521eSChiichen ) -> Result<usize, SystemError> { 584b087521eSChiichen self.0.lock().write_at(lba_id_start, count, buf) 585b087521eSChiichen } 586004e86ffSlogin } 587