use crate::filesystem::vfs::file::{File, FileMode}; use crate::filesystem::vfs::syscall::ModeType; use crate::filesystem::vfs::{FilePrivateData, FileSystem, FileType, IndexNode, Metadata}; use crate::libs::spinlock::{SpinLock, SpinLockGuard}; use crate::libs::wait_queue::WaitQueue; use crate::net::event_poll::{EPollEventType, EPollItem, EventPoll, KernelIoctlData}; use crate::process::ProcessManager; use crate::syscall::Syscall; use alloc::collections::LinkedList; use alloc::string::String; use alloc::sync::Arc; use alloc::sync::Weak; use alloc::vec::Vec; use core::any::Any; use ida::IdAllocator; use system_error::SystemError; static EVENTFD_ID_ALLOCATOR: SpinLock = SpinLock::new(IdAllocator::new(0, u32::MAX as usize).unwrap()); bitflags! { pub struct EventFdFlags: u32{ /// Provide semaphore-like semantics for reads from the new /// file descriptor. const EFD_SEMAPHORE = 0o1; /// Set the close-on-exec (FD_CLOEXEC) flag on the new file /// descriptor const EFD_CLOEXEC = 0o2000000; /// Set the O_NONBLOCK file status flag on the open file /// description (see open(2)) referred to by the new file /// descriptor const EFD_NONBLOCK = 0o0004000; } } #[derive(Debug)] pub struct EventFd { count: u64, flags: EventFdFlags, #[allow(unused)] id: u32, } impl EventFd { pub fn new(count: u64, flags: EventFdFlags, id: u32) -> Self { EventFd { count, flags, id } } } #[derive(Debug)] pub struct EventFdInode { eventfd: SpinLock, wait_queue: WaitQueue, epitems: SpinLock>>, } impl EventFdInode { pub fn new(eventfd: EventFd) -> Self { EventFdInode { eventfd: SpinLock::new(eventfd), wait_queue: WaitQueue::default(), epitems: SpinLock::new(LinkedList::new()), } } pub fn remove_epoll(&self, epoll: &Weak>) -> Result<(), SystemError> { let is_remove = !self .epitems .lock_irqsave() .extract_if(|x| x.epoll().ptr_eq(epoll)) .collect::>() .is_empty(); if is_remove { return Ok(()); } Err(SystemError::ENOENT) } } impl IndexNode for EventFdInode { fn open( &self, _data: SpinLockGuard, _mode: &FileMode, ) -> Result<(), SystemError> { Ok(()) } fn close(&self, _data: SpinLockGuard) -> Result<(), SystemError> { Ok(()) } /// # 从 counter 里读取一个 8 字节的int值 /// /// 1. counter !=0 /// - EFD_SEMAPHORE 如果没有被设置,从 eventfd read,会得到 counter,并将它归0 /// - EFD_SEMAPHORE 如果被设置,从 eventfd read,会得到值 1,并将 counter - 1 /// 2. counter == 0 /// - EFD_NONBLOCK 如果被设置,那么会以 EAGAIN 的错失败 /// - 否则 read 会被阻塞,直到为非0。 fn read_at( &self, _offset: usize, len: usize, buf: &mut [u8], data: SpinLockGuard, ) -> Result { if len < 8 { return Err(SystemError::EINVAL); } let mut val = loop { let val = self.eventfd.lock().count; if val != 0 { break val; } if self .eventfd .lock() .flags .contains(EventFdFlags::EFD_NONBLOCK) { return Err(SystemError::EAGAIN_OR_EWOULDBLOCK); } self.wait_queue.sleep(); }; let mut eventfd = self.eventfd.lock(); if eventfd.flags.contains(EventFdFlags::EFD_SEMAPHORE) { eventfd.count -= 1; val = 1; } else { eventfd.count = 0; } let val_bytes = val.to_ne_bytes(); buf[..8].copy_from_slice(&val_bytes); let pollflag = EPollEventType::from_bits_truncate(self.poll(&data)? as u32); // 唤醒epoll中等待的进程 EventPoll::wakeup_epoll(&self.epitems, Some(pollflag))?; return Ok(8); } /// # 把一个 8 字节的int值写入到 counter 里 /// /// - counter 最大值是 2^64 - 1 /// - 如果写入时会发生溢出,则write会被阻塞 /// - 如果 EFD_NONBLOCK 被设置,那么以 EAGAIN 失败 /// - 以不合法的值写入时,会以 EINVAL 失败 /// - 比如 0xffffffffffffffff 不合法 /// - 比如 写入的值 size 小于8字节 fn write_at( &self, _offset: usize, len: usize, buf: &[u8], data: SpinLockGuard, ) -> Result { if len < 8 { return Err(SystemError::EINVAL); } let val = u64::from_ne_bytes(buf[..8].try_into().unwrap()); if val == u64::MAX { return Err(SystemError::EINVAL); } loop { let eventfd = self.eventfd.lock(); if u64::MAX - eventfd.count > val { break; } // block until a read() is performed on the // file descriptor, or fails with the error EAGAIN if the // file descriptor has been made nonblocking. if eventfd.flags.contains(EventFdFlags::EFD_NONBLOCK) { return Err(SystemError::EAGAIN_OR_EWOULDBLOCK); } drop(eventfd); self.wait_queue.sleep(); } let mut eventfd = self.eventfd.lock(); eventfd.count += val; self.wait_queue.wakeup_all(None); let pollflag = EPollEventType::from_bits_truncate(self.poll(&data)? as u32); // 唤醒epoll中等待的进程 EventPoll::wakeup_epoll(&self.epitems, Some(pollflag))?; return Ok(8); } /// # 检查 eventfd 的状态 /// /// - 如果 counter 的值大于 0 ,那么 fd 的状态就是可读的 /// - 如果能无阻塞地写入一个至少为 1 的值,那么 fd 的状态就是可写的 fn poll(&self, _private_data: &FilePrivateData) -> Result { let mut events = EPollEventType::empty(); if self.eventfd.lock().count != 0 { events |= EPollEventType::EPOLLIN | EPollEventType::EPOLLRDNORM; } if self.eventfd.lock().count != u64::MAX { events |= EPollEventType::EPOLLOUT | EPollEventType::EPOLLWRNORM; } return Ok(events.bits() as usize); } fn metadata(&self) -> Result { let meta = Metadata { mode: ModeType::from_bits_truncate(0o755), file_type: FileType::File, ..Default::default() }; Ok(meta) } fn resize(&self, _len: usize) -> Result<(), SystemError> { Ok(()) } fn kernel_ioctl( &self, arg: Arc, _data: &FilePrivateData, ) -> Result { let epitem = arg .arc_any() .downcast::() .map_err(|_| SystemError::EFAULT)?; self.epitems.lock().push_back(epitem); Ok(0) } fn fs(&self) -> Arc { panic!("EventFd does not have a filesystem") } fn as_any_ref(&self) -> &dyn Any { self } fn list(&self) -> Result, SystemError> { Err(SystemError::EINVAL) } } impl Syscall { /// # 创建一个 eventfd 文件描述符 /// /// ## 参数 /// - `init_val`: u32: eventfd 的初始值 /// - `flags`: u32: eventfd 的标志 /// /// ## 返回值 /// - `Ok(usize)`: 成功创建的文件描述符 /// - `Err(SystemError)`: 创建失败 /// /// See: https://man7.org/linux/man-pages/man2/eventfd2.2.html pub fn sys_eventfd(init_val: u32, flags: u32) -> Result { let flags = EventFdFlags::from_bits(flags).ok_or(SystemError::EINVAL)?; let id = EVENTFD_ID_ALLOCATOR .lock() .alloc() .ok_or(SystemError::ENOMEM)? as u32; let eventfd = EventFd::new(init_val as u64, flags, id); let inode = Arc::new(EventFdInode::new(eventfd)); let filemode = if flags.contains(EventFdFlags::EFD_CLOEXEC) { FileMode::O_RDWR | FileMode::O_CLOEXEC } else { FileMode::O_RDWR }; let file = File::new(inode, filemode)?; let binding = ProcessManager::current_pcb().fd_table(); let mut fd_table_guard = binding.write(); let fd = fd_table_guard.alloc_fd(file, None).map(|x| x as usize); return fd; } }