use core::any::Any; use core::intrinsics::unlikely; use crate::filesystem::vfs::FSMAKER; use crate::{ driver::base::device::device_number::DeviceNumber, filesystem::vfs::{core::generate_inode_id, FileType}, ipc::pipe::LockedPipeInode, libs::spinlock::{SpinLock, SpinLockGuard}, time::TimeSpec, }; use alloc::{ collections::BTreeMap, string::String, sync::{Arc, Weak}, vec::Vec, }; use system_error::SystemError; use super::vfs::{ file::FilePrivateData, syscall::ModeType, FileSystem, FileSystemMaker, FsInfo, IndexNode, InodeId, Metadata, SpecialNodeData, }; /// RamFS的inode名称的最大长度 const RAMFS_MAX_NAMELEN: usize = 64; /// @brief 内存文件系统的Inode结构体 #[derive(Debug)] struct LockedRamFSInode(SpinLock); /// @brief 内存文件系统结构体 #[derive(Debug)] pub struct RamFS { /// RamFS的root inode root_inode: Arc, } /// @brief 内存文件系统的Inode结构体(不包含锁) #[derive(Debug)] pub struct RamFSInode { // parent变量目前只在find函数中使用到 // 所以只有当inode是文件夹的时候,parent才会生效 // 对于文件来说,parent就没什么作用了 // 关于parent的说明: 目录不允许有硬链接 /// 指向父Inode的弱引用 parent: Weak, /// 指向自身的弱引用 self_ref: Weak, /// 子Inode的B树 children: BTreeMap>, /// 当前inode的数据部分 data: Vec, /// 当前inode的元数据 metadata: Metadata, /// 指向inode所在的文件系统对象的指针 fs: Weak, /// 指向特殊节点 special_node: Option, } impl FileSystem for RamFS { fn root_inode(&self) -> Arc { return self.root_inode.clone(); } fn info(&self) -> FsInfo { return FsInfo { blk_dev_id: 0, max_name_len: RAMFS_MAX_NAMELEN, }; } /// @brief 本函数用于实现动态转换。 /// 具体的文件系统在实现本函数时,最简单的方式就是:直接返回self fn as_any_ref(&self) -> &dyn Any { self } fn name(&self) -> &str { "ramfs" } } impl RamFS { pub fn new() -> Arc { // 初始化root inode let root: Arc = Arc::new(LockedRamFSInode(SpinLock::new(RamFSInode { parent: Weak::default(), self_ref: Weak::default(), children: BTreeMap::new(), data: Vec::new(), metadata: Metadata { dev_id: 0, inode_id: generate_inode_id(), size: 0, blk_size: 0, blocks: 0, atime: TimeSpec::default(), mtime: TimeSpec::default(), ctime: TimeSpec::default(), file_type: FileType::Dir, mode: ModeType::from_bits_truncate(0o777), nlinks: 1, uid: 0, gid: 0, raw_dev: DeviceNumber::default(), }, fs: Weak::default(), special_node: None, }))); let result: Arc = Arc::new(RamFS { root_inode: root }); // 对root inode加锁,并继续完成初始化工作 let mut root_guard: SpinLockGuard = result.root_inode.0.lock(); root_guard.parent = Arc::downgrade(&result.root_inode); root_guard.self_ref = Arc::downgrade(&result.root_inode); root_guard.fs = Arc::downgrade(&result); // 释放锁 drop(root_guard); return result; } pub fn make_ramfs() -> Result, SystemError> { let fs = RamFS::new(); return Ok(fs); } } #[distributed_slice(FSMAKER)] static RAMFSMAKER: FileSystemMaker = FileSystemMaker::new( "ramfs", &(RamFS::make_ramfs as fn() -> Result, SystemError>), ); impl IndexNode for LockedRamFSInode { fn truncate(&self, len: usize) -> Result<(), SystemError> { let mut inode = self.0.lock(); //如果是文件夹,则报错 if inode.metadata.file_type == FileType::Dir { return Err(SystemError::EINVAL); } //当前文件长度大于_len才进行截断,否则不操作 if inode.data.len() > len { inode.data.resize(len, 0); } return Ok(()); } fn close(&self, _data: &mut FilePrivateData) -> Result<(), SystemError> { return Ok(()); } fn open( &self, _data: &mut FilePrivateData, _mode: &super::vfs::file::FileMode, ) -> Result<(), SystemError> { return Ok(()); } fn read_at( &self, offset: usize, len: usize, buf: &mut [u8], _data: &mut FilePrivateData, ) -> Result { if buf.len() < len { return Err(SystemError::EINVAL); } // 加锁 let inode: SpinLockGuard = self.0.lock(); // 检查当前inode是否为一个文件夹,如果是的话,就返回错误 if inode.metadata.file_type == FileType::Dir { return Err(SystemError::EISDIR); } let start = inode.data.len().min(offset); let end = inode.data.len().min(offset + len); // buffer空间不足 if buf.len() < (end - start) { return Err(SystemError::ENOBUFS); } // 拷贝数据 let src = &inode.data[start..end]; buf[0..src.len()].copy_from_slice(src); return Ok(src.len()); } fn write_at( &self, offset: usize, len: usize, buf: &[u8], _data: &mut FilePrivateData, ) -> Result { if buf.len() < len { return Err(SystemError::EINVAL); } // 加锁 let mut inode: SpinLockGuard = self.0.lock(); // 检查当前inode是否为一个文件夹,如果是的话,就返回错误 if inode.metadata.file_type == FileType::Dir { return Err(SystemError::EISDIR); } let data: &mut Vec = &mut inode.data; // 如果文件大小比原来的大,那就resize这个数组 if offset + len > data.len() { data.resize(offset + len, 0); } let target = &mut data[offset..offset + len]; target.copy_from_slice(&buf[0..len]); return Ok(len); } fn fs(&self) -> Arc { return self.0.lock().fs.upgrade().unwrap(); } fn as_any_ref(&self) -> &dyn core::any::Any { self } fn metadata(&self) -> Result { let inode = self.0.lock(); let mut metadata = inode.metadata.clone(); metadata.size = inode.data.len() as i64; return Ok(metadata); } fn set_metadata(&self, metadata: &Metadata) -> Result<(), SystemError> { let mut inode = self.0.lock(); inode.metadata.atime = metadata.atime; inode.metadata.mtime = metadata.mtime; inode.metadata.ctime = metadata.ctime; inode.metadata.mode = metadata.mode; inode.metadata.uid = metadata.uid; inode.metadata.gid = metadata.gid; return Ok(()); } fn resize(&self, len: usize) -> Result<(), SystemError> { let mut inode = self.0.lock(); if inode.metadata.file_type == FileType::File { inode.data.resize(len, 0); return Ok(()); } else { return Err(SystemError::EINVAL); } } fn create_with_data( &self, name: &str, file_type: FileType, mode: ModeType, data: usize, ) -> Result, SystemError> { // 获取当前inode let mut inode = self.0.lock(); // 如果当前inode不是文件夹,则返回 if inode.metadata.file_type != FileType::Dir { return Err(SystemError::ENOTDIR); } // 如果有重名的,则返回 if inode.children.contains_key(name) { return Err(SystemError::EEXIST); } // 创建inode let result: Arc = Arc::new(LockedRamFSInode(SpinLock::new(RamFSInode { parent: inode.self_ref.clone(), self_ref: Weak::default(), children: BTreeMap::new(), data: Vec::new(), metadata: Metadata { dev_id: 0, inode_id: generate_inode_id(), size: 0, blk_size: 0, blocks: 0, atime: TimeSpec::default(), mtime: TimeSpec::default(), ctime: TimeSpec::default(), file_type: file_type, mode: mode, nlinks: 1, uid: 0, gid: 0, raw_dev: DeviceNumber::from(data as u32), }, fs: inode.fs.clone(), special_node: None, }))); // 初始化inode的自引用的weak指针 result.0.lock().self_ref = Arc::downgrade(&result); // 将子inode插入父inode的B树中 inode.children.insert(String::from(name), result.clone()); return Ok(result); } fn link(&self, name: &str, other: &Arc) -> Result<(), SystemError> { let other: &LockedRamFSInode = other .downcast_ref::() .ok_or(SystemError::EPERM)?; let mut inode: SpinLockGuard = self.0.lock(); let mut other_locked: SpinLockGuard = other.0.lock(); // 如果当前inode不是文件夹,那么报错 if inode.metadata.file_type != FileType::Dir { return Err(SystemError::ENOTDIR); } // 如果另一个inode是文件夹,那么也报错 if other_locked.metadata.file_type == FileType::Dir { return Err(SystemError::EISDIR); } // 如果当前文件夹下已经有同名文件,也报错。 if inode.children.contains_key(name) { return Err(SystemError::EEXIST); } inode .children .insert(String::from(name), other_locked.self_ref.upgrade().unwrap()); // 增加硬链接计数 other_locked.metadata.nlinks += 1; return Ok(()); } fn unlink(&self, name: &str) -> Result<(), SystemError> { let mut inode: SpinLockGuard = self.0.lock(); // 如果当前inode不是目录,那么也没有子目录/文件的概念了,因此要求当前inode的类型是目录 if inode.metadata.file_type != FileType::Dir { return Err(SystemError::ENOTDIR); } // 不允许删除当前文件夹,也不允许删除上一个目录 if name == "." || name == ".." { return Err(SystemError::ENOTEMPTY); } // 获得要删除的文件的inode let to_delete = inode.children.get(name).ok_or(SystemError::ENOENT)?; if to_delete.0.lock().metadata.file_type == FileType::Dir { return Err(SystemError::EPERM); } // 减少硬链接计数 to_delete.0.lock().metadata.nlinks -= 1; // 在当前目录中删除这个子目录项 inode.children.remove(name); return Ok(()); } fn rmdir(&self, name: &str) -> Result<(), SystemError> { let mut inode: SpinLockGuard = self.0.lock(); // 如果当前inode不是目录,那么也没有子目录/文件的概念了,因此要求当前inode的类型是目录 if inode.metadata.file_type != FileType::Dir { return Err(SystemError::ENOTDIR); } // 获得要删除的文件夹的inode let to_delete = inode.children.get(name).ok_or(SystemError::ENOENT)?; if to_delete.0.lock().metadata.file_type != FileType::Dir { return Err(SystemError::ENOTDIR); } to_delete.0.lock().metadata.nlinks -= 1; // 在当前目录中删除这个子目录项 inode.children.remove(name); return Ok(()); } fn move_to( &self, old_name: &str, target: &Arc, new_name: &str, ) -> Result<(), SystemError> { let old_inode: Arc = self.find(old_name)?; // 在新的目录下创建一个硬链接 target.link(new_name, &old_inode)?; // 取消现有的目录下的这个硬链接 if let Err(err) = self.unlink(old_name) { // 如果取消失败,那就取消新的目录下的硬链接 target.unlink(new_name)?; return Err(err); } return Ok(()); } fn find(&self, name: &str) -> Result, SystemError> { let inode = self.0.lock(); if inode.metadata.file_type != FileType::Dir { return Err(SystemError::ENOTDIR); } match name { "" | "." => { return Ok(inode.self_ref.upgrade().ok_or(SystemError::ENOENT)?); } ".." => { return Ok(inode.parent.upgrade().ok_or(SystemError::ENOENT)?); } name => { // 在子目录项中查找 return Ok(inode.children.get(name).ok_or(SystemError::ENOENT)?.clone()); } } } fn get_entry_name(&self, ino: InodeId) -> Result { let inode: SpinLockGuard = self.0.lock(); if inode.metadata.file_type != FileType::Dir { return Err(SystemError::ENOTDIR); } match ino.into() { 0 => { return Ok(String::from(".")); } 1 => { return Ok(String::from("..")); } ino => { // 暴力遍历所有的children,判断inode id是否相同 // TODO: 优化这里,这个地方性能很差! let mut key: Vec = inode .children .keys() .filter(|k| { inode .children .get(*k) .unwrap() .0 .lock() .metadata .inode_id .into() == ino }) .cloned() .collect(); match key.len() { 0=>{return Err(SystemError::ENOENT);} 1=>{return Ok(key.remove(0));} _ => panic!("Ramfs get_entry_name: key.len()={key_len}>1, current inode_id={inode_id:?}, to find={to_find:?}", key_len=key.len(), inode_id = inode.metadata.inode_id, to_find=ino) } } } } fn list(&self) -> Result, SystemError> { let info = self.metadata()?; if info.file_type != FileType::Dir { return Err(SystemError::ENOTDIR); } let mut keys: Vec = Vec::new(); keys.push(String::from(".")); keys.push(String::from("..")); keys.append(&mut self.0.lock().children.keys().cloned().collect()); return Ok(keys); } fn mknod( &self, filename: &str, mode: ModeType, _dev_t: DeviceNumber, ) -> Result, SystemError> { let mut inode = self.0.lock(); if inode.metadata.file_type != FileType::Dir { return Err(SystemError::ENOTDIR); } // 判断需要创建的类型 if unlikely(mode.contains(ModeType::S_IFREG)) { // 普通文件 return Ok(self.create(filename, FileType::File, mode)?); } let nod = Arc::new(LockedRamFSInode(SpinLock::new(RamFSInode { parent: inode.self_ref.clone(), self_ref: Weak::default(), children: BTreeMap::new(), data: Vec::new(), metadata: Metadata { dev_id: 0, inode_id: generate_inode_id(), size: 0, blk_size: 0, blocks: 0, atime: TimeSpec::default(), mtime: TimeSpec::default(), ctime: TimeSpec::default(), file_type: FileType::Pipe, mode: mode, nlinks: 1, uid: 0, gid: 0, raw_dev: DeviceNumber::default(), }, fs: inode.fs.clone(), special_node: None, }))); nod.0.lock().self_ref = Arc::downgrade(&nod); if mode.contains(ModeType::S_IFIFO) { nod.0.lock().metadata.file_type = FileType::Pipe; // 创建pipe文件 let pipe_inode = LockedPipeInode::new(); // 设置special_node nod.0.lock().special_node = Some(SpecialNodeData::Pipe(pipe_inode)); } else if mode.contains(ModeType::S_IFBLK) { nod.0.lock().metadata.file_type = FileType::BlockDevice; unimplemented!() } else if mode.contains(ModeType::S_IFCHR) { nod.0.lock().metadata.file_type = FileType::CharDevice; unimplemented!() } inode .children .insert(String::from(filename).to_uppercase(), nod.clone()); Ok(nod) } fn special_node(&self) -> Option { return self.0.lock().special_node.clone(); } /// # 用于重命名内存中的文件或目录 fn rename(&self, _old_name: &str, _new_name: &str) -> Result<(), SystemError> { let old_inode: Arc = self.find(_old_name)?; // 在新的目录下创建一个硬链接 self.link(_new_name, &old_inode)?; // 取消现有的目录下的这个硬链接 if let Err(err) = self.unlink(_old_name) { // 如果取消失败,那就取消新的目录下的硬链接 self.unlink(_new_name)?; return Err(err); } return Ok(()); } }