#![allow(dead_code, unused_variables, unused_imports)] pub mod copy_up; pub mod entry; use super::ramfs::{LockedRamFSInode, RamFSInode}; use super::vfs::{self, FileSystem, FileType, FsInfo, IndexNode, Metadata, SuperBlock}; use super::vfs::{FSMAKER, ROOT_INODE}; use crate::driver::base::device::device_number::DeviceNumber; use crate::driver::base::device::device_number::Major; use crate::filesystem::vfs::{FileSystemMaker, FileSystemMakerData}; use crate::libs::spinlock::SpinLock; use alloc::string::String; use alloc::sync::Arc; use alloc::sync::Weak; use alloc::vec::Vec; use entry::{OvlEntry, OvlLayer}; use system_error::SystemError; const WHITEOUT_MODE: u64 = 0o020000 | 0o600; // whiteout字符设备文件模式与权限 const WHITEOUT_DEV: DeviceNumber = DeviceNumber::new(Major::UNNAMED_MAJOR, 0); // Whiteout 文件设备号 const WHITEOUT_FLAG: u64 = 0x1; #[distributed_slice(FSMAKER)] static OVERLAYFSMAKER: FileSystemMaker = FileSystemMaker::new( "overlay", &(OverlayFS::make_overlayfs as fn( Option<&dyn FileSystemMakerData>, ) -> Result, SystemError>), ); #[derive(Debug)] pub struct OverlayMountData { upper_dir: String, lower_dirs: Vec, work_dir: String, } impl OverlayMountData { pub fn from_row(raw_data: *const u8) -> Result { if raw_data.is_null() { return Err(SystemError::EINVAL); } let len = (0..) .find(|&i| unsafe { raw_data.add(i).read() } == 0) .ok_or(SystemError::EINVAL)?; let slice = unsafe { core::slice::from_raw_parts(raw_data, len) }; let raw_str = core::str::from_utf8(slice).map_err(|_| SystemError::EINVAL)?; let mut data = OverlayMountData { upper_dir: String::new(), lower_dirs: Vec::new(), work_dir: String::new(), }; for pair in raw_str.split(',') { let mut parts = pair.split('='); let key = parts.next().ok_or(SystemError::EINVAL)?; let value = parts.next().ok_or(SystemError::EINVAL)?; match key { "upperdir" => data.upper_dir = value.into(), "lowerdir" => data.lower_dirs = value.split(':').map(|s| s.into()).collect(), "workdir" => data.work_dir = value.into(), _ => return Err(SystemError::EINVAL), } } Ok(data) } } impl FileSystemMakerData for OverlayMountData { fn as_any(&self) -> &dyn core::any::Any { self } } #[derive(Debug)] pub struct OvlSuperBlock { super_block: SuperBlock, pseudo_dev: DeviceNumber, // 虚拟设备号 is_lower: bool, } #[derive(Debug)] struct OverlayFS { numlayer: usize, numfs: u32, numdatalayer: usize, layers: Vec, // 第0层为读写层,后面是只读层 workdir: Arc, root_inode: Arc, } #[derive(Debug)] struct OvlInode { redirect: String, // 重定向路径 file_type: FileType, flags: SpinLock, upper_inode: SpinLock>>, // 读写层 lower_inode: Option>, // 只读层 oe: Arc, fs: Weak, } impl OvlInode { pub fn new( redirect: String, upper: Option>, lower_inode: Option>, ) -> Self { Self { redirect, file_type: FileType::Dir, flags: SpinLock::new(0), upper_inode: SpinLock::new(upper), lower_inode, oe: Arc::new(OvlEntry::new()), fs: Weak::default(), } } } impl FileSystem for OverlayFS { fn root_inode(&self) -> Arc { self.root_inode.clone() } fn info(&self) -> vfs::FsInfo { FsInfo { blk_dev_id: 0, max_name_len: 255, } } fn as_any_ref(&self) -> &dyn core::any::Any { self } fn name(&self) -> &str { "overlayfs" } fn super_block(&self) -> SuperBlock { todo!() } } impl OverlayFS { pub fn ovl_upper_mnt(&self) -> Arc { self.layers[0].mnt.clone() } pub fn make_overlayfs( data: Option<&dyn FileSystemMakerData>, ) -> Result, SystemError> { let mount_data = data .and_then(|d| d.as_any().downcast_ref::()) .ok_or(SystemError::EINVAL)?; let upper_inode = ROOT_INODE() .lookup(&mount_data.upper_dir) .map_err(|_| SystemError::EINVAL)?; let upper_layer = OvlLayer { mnt: Arc::new(OvlInode::new( mount_data.upper_dir.clone(), Some(upper_inode), None, )), index: 0, fsid: 0, }; let lower_layers: Result, SystemError> = mount_data .lower_dirs .iter() .enumerate() .map(|(i, dir)| { let lower_inode = ROOT_INODE().lookup(dir).map_err(|_| SystemError::EINVAL)?; // 处理错误 Ok(OvlLayer { mnt: Arc::new(OvlInode::new(dir.clone(), None, Some(lower_inode))), index: (i + 1) as u32, fsid: (i + 1) as u32, }) }) .collect(); let lower_layers = lower_layers?; let workdir = Arc::new(OvlInode::new(mount_data.work_dir.clone(), None, None)); if lower_layers.is_empty() { return Err(SystemError::EINVAL); } let mut layers = Vec::new(); layers.push(upper_layer); layers.extend(lower_layers); let root_inode = layers[0].mnt.clone(); let fs = OverlayFS { numlayer: layers.len(), numfs: 1, numdatalayer: layers.len() - 1, layers, workdir, root_inode, }; Ok(Arc::new(fs)) } } impl OvlInode { pub fn ovl_lower_redirect(&self) -> Option<&str> { if self.file_type == FileType::File || self.file_type == FileType::Dir { Some(&self.redirect) } else { None } } pub fn create_whiteout(&self, name: &str) -> Result<(), SystemError> { let whiteout_mode = vfs::syscall::ModeType::S_IFCHR; let mut upper_inode = self.upper_inode.lock(); if let Some(ref upper_inode) = *upper_inode { upper_inode.mknod(name, whiteout_mode, WHITEOUT_DEV)?; } else { let new_inode = self .fs .upgrade() .ok_or(SystemError::EROFS)? .root_inode() .create(name, FileType::CharDevice, whiteout_mode)?; *upper_inode = Some(new_inode); } let mut flags = self.flags.lock(); *flags |= WHITEOUT_FLAG; // 标记为 whiteout Ok(()) } fn is_whiteout(&self) -> bool { let flags = self.flags.lock(); self.file_type == FileType::CharDevice && (*flags & WHITEOUT_FLAG) != 0 } fn has_whiteout(&self, name: &str) -> bool { let upper_inode = self.upper_inode.lock(); if let Some(ref upper_inode) = *upper_inode { if let Ok(inode) = upper_inode.find(name) { if let Some(ovl_inode) = inode.as_any_ref().downcast_ref::() { return ovl_inode.is_whiteout(); } } } false } } impl IndexNode for OvlInode { fn read_at( &self, offset: usize, len: usize, buf: &mut [u8], data: crate::libs::spinlock::SpinLockGuard, ) -> Result { if let Some(ref upper_inode) = *self.upper_inode.lock() { return upper_inode.read_at(offset, len, buf, data); } if let Some(lower_inode) = &self.lower_inode { return lower_inode.read_at(offset, len, buf, data); } Err(SystemError::ENOENT) } fn write_at( &self, offset: usize, len: usize, buf: &[u8], data: crate::libs::spinlock::SpinLockGuard, ) -> Result { if (*self.upper_inode.lock()).is_none() { self.copy_up()?; } if let Some(ref upper_inode) = *self.upper_inode.lock() { return upper_inode.write_at(offset, len, buf, data); } Err(SystemError::EROFS) } fn fs(&self) -> Arc { self.fs.upgrade().unwrap() } fn metadata(&self) -> Result { if let Some(ref upper_inode) = *self.upper_inode.lock() { return upper_inode.metadata(); } if let Some(ref lower_inode) = self.lower_inode { return lower_inode.metadata(); } Ok(Metadata::default()) } fn as_any_ref(&self) -> &dyn core::any::Any { self } fn list(&self) -> Result, system_error::SystemError> { let mut entries: Vec = Vec::new(); let upper_inode = self.upper_inode.lock(); if let Some(ref upper_inode) = *upper_inode { let upper_entries = upper_inode.list()?; entries.extend(upper_entries); } if let Some(lower_inode) = &self.lower_inode { let lower_entries = lower_inode.list()?; for entry in lower_entries { if !entries.contains(&entry) && !self.has_whiteout(&entry) { entries.push(entry); } } } Ok(entries) } fn mkdir( &self, name: &str, mode: vfs::syscall::ModeType, ) -> Result, system_error::SystemError> { if let Some(ref upper_inode) = *self.upper_inode.lock() { upper_inode.mkdir(name, mode) } else { Err(SystemError::EROFS) } } fn rmdir(&self, name: &str) -> Result<(), SystemError> { let upper_inode = self.upper_inode.lock(); if let Some(ref upper_inode) = *upper_inode { upper_inode.rmdir(name)?; } else if let Some(lower_inode) = &self.lower_inode { if lower_inode.find(name).is_ok() { self.create_whiteout(name)?; } else { return Err(SystemError::ENOENT); } } else { return Err(SystemError::ENOENT); } Ok(()) } fn unlink(&self, name: &str) -> Result<(), SystemError> { let upper_inode = self.upper_inode.lock(); if let Some(ref upper_inode) = *upper_inode { upper_inode.unlink(name)?; } else if let Some(lower_inode) = &self.lower_inode { if lower_inode.find(name).is_ok() { self.create_whiteout(name)?; } else { return Err(SystemError::ENOENT); } } else { return Err(SystemError::ENOENT); } Ok(()) } fn link( &self, name: &str, other: &Arc, ) -> Result<(), system_error::SystemError> { if let Some(ref upper_inode) = *self.upper_inode.lock() { upper_inode.link(name, other) } else { Err(SystemError::EROFS) } } fn create( &self, name: &str, file_type: vfs::FileType, mode: vfs::syscall::ModeType, ) -> Result, system_error::SystemError> { if let Some(ref upper_inode) = *self.upper_inode.lock() { upper_inode.create(name, file_type, mode) } else { Err(SystemError::EROFS) } } fn find(&self, name: &str) -> Result, system_error::SystemError> { let upper_inode = self.upper_inode.lock(); if let Some(ref upper) = *upper_inode { if let Ok(inode) = upper.find(name) { return Ok(inode); } } if self.has_whiteout(name) { return Err(SystemError::ENOENT); } if let Some(lower) = &self.lower_inode { if let Ok(inode) = lower.find(name) { return Ok(inode); } } Err(SystemError::ENOENT) } fn mknod( &self, filename: &str, mode: vfs::syscall::ModeType, dev_t: crate::driver::base::device::device_number::DeviceNumber, ) -> Result, system_error::SystemError> { let upper_inode = self.upper_inode.lock(); if let Some(ref inode) = *upper_inode { inode.mknod(filename, mode, dev_t) } else { Err(SystemError::EROFS) } } }