use alloc::sync::Arc; use crate::{ driver::base::block::SeekFrom, process::ProcessManager, syscall::{user_access::check_and_clone_cstr, SystemError}, }; use super::{ fcntl::AtFlags, file::{File, FileMode}, syscall::{ModeType, OpenHow, OpenHowResolve}, utils::{rsplit_path, user_path_at}, FileType, IndexNode, MAX_PATHLEN, ROOT_INODE, VFS_MAX_FOLLOW_SYMLINK_TIMES, }; pub(super) fn do_faccessat( dirfd: i32, path: *const u8, mode: ModeType, flags: u32, ) -> Result { if (mode.bits() & (!ModeType::S_IRWXO.bits())) != 0 { return Err(SystemError::EINVAL); } if (flags & (!((AtFlags::AT_EACCESS | AtFlags::AT_SYMLINK_NOFOLLOW | AtFlags::AT_EMPTY_PATH).bits() as u32))) != 0 { return Err(SystemError::EINVAL); } // let follow_symlink = flags & AtFlags::AT_SYMLINK_NOFOLLOW.bits() as u32 == 0; let path = check_and_clone_cstr(path, Some(MAX_PATHLEN))?; if path.len() == 0 { return Err(SystemError::EINVAL); } let (inode, path) = user_path_at(&ProcessManager::current_pcb(), dirfd, &path)?; // 如果找不到文件,则返回错误码ENOENT let _inode = inode.lookup_follow_symlink(path.as_str(), VFS_MAX_FOLLOW_SYMLINK_TIMES)?; // todo: 接着完善(可以借鉴linux 6.1.9的do_faccessat) return Ok(0); } pub fn do_fchmodat(dirfd: i32, path: *const u8, _mode: ModeType) -> Result { let path = check_and_clone_cstr(path, Some(MAX_PATHLEN))?; if path.len() == 0 { return Err(SystemError::EINVAL); } let (inode, path) = user_path_at(&ProcessManager::current_pcb(), dirfd, &path)?; // 如果找不到文件,则返回错误码ENOENT let _inode = inode.lookup_follow_symlink(path.as_str(), VFS_MAX_FOLLOW_SYMLINK_TIMES)?; kwarn!("do_fchmodat: not implemented yet\n"); // todo: 真正去改变文件的权限 return Ok(0); } pub(super) fn do_sys_open( dfd: i32, path: &str, o_flags: FileMode, mode: ModeType, follow_symlink: bool, ) -> Result { let how = OpenHow::new(o_flags, mode, OpenHowResolve::empty()); return do_sys_openat2(dfd, path, how, follow_symlink); } fn do_sys_openat2( dirfd: i32, path: &str, how: OpenHow, follow_symlink: bool, ) -> Result { // kdebug!("open: path: {}, mode: {:?}", path, mode); // 文件名过长 if path.len() > MAX_PATHLEN as usize { return Err(SystemError::ENAMETOOLONG); } let (inode_begin, path) = user_path_at(&ProcessManager::current_pcb(), dirfd, path)?; let inode: Result, SystemError> = inode_begin.lookup_follow_symlink( &path, if follow_symlink { VFS_MAX_FOLLOW_SYMLINK_TIMES } else { 0 }, ); let inode: Arc = if inode.is_err() { let errno = inode.unwrap_err(); // 文件不存在,且需要创建 if how.o_flags.contains(FileMode::O_CREAT) && !how.o_flags.contains(FileMode::O_DIRECTORY) && errno == SystemError::ENOENT { let (filename, parent_path) = rsplit_path(&path); // 查找父目录 let parent_inode: Arc = ROOT_INODE().lookup(parent_path.unwrap_or("/"))?; // 创建文件 let inode: Arc = parent_inode.create( filename, FileType::File, ModeType::from_bits_truncate(0o755), )?; inode } else { // 不需要创建文件,因此返回错误码 return Err(errno); } } else { inode.unwrap() }; let file_type: FileType = inode.metadata()?.file_type; // 如果要打开的是文件夹,而目标不是文件夹 if how.o_flags.contains(FileMode::O_DIRECTORY) && file_type != FileType::Dir { return Err(SystemError::ENOTDIR); } // 创建文件对象 let mut file: File = File::new(inode, how.o_flags)?; // 打开模式为“追加” if how.o_flags.contains(FileMode::O_APPEND) { file.lseek(SeekFrom::SeekEnd(0))?; } // 如果O_TRUNC,并且,打开模式包含O_RDWR或O_WRONLY,清空文件 if how.o_flags.contains(FileMode::O_TRUNC) && (how.o_flags.contains(FileMode::O_RDWR) || how.o_flags.contains(FileMode::O_WRONLY)) && file_type == FileType::File { file.ftruncate(0)?; } // 把文件对象存入pcb let r = ProcessManager::current_pcb() .fd_table() .write() .alloc_fd(file, None) .map(|fd| fd as usize); return r; }