14ad52e57S裕依2439 use core::{any::Any, fmt::Debug, sync::atomic::AtomicUsize}; 24ad52e57S裕依2439 34ad52e57S裕依2439 use alloc::{ 44ad52e57S裕依2439 boxed::Box, 54ad52e57S裕依2439 collections::LinkedList, 64ad52e57S裕依2439 string::String, 74ad52e57S裕依2439 sync::{Arc, Weak}, 84ad52e57S裕依2439 vec::Vec, 94ad52e57S裕依2439 }; 104ad52e57S裕依2439 use hashbrown::HashMap; 114ad52e57S裕依2439 use smoltcp::{ 124ad52e57S裕依2439 iface::{SocketHandle, SocketSet}, 134ad52e57S裕依2439 socket::{self, tcp, udp}, 144ad52e57S裕依2439 }; 154ad52e57S裕依2439 use system_error::SystemError; 164ad52e57S裕依2439 174ad52e57S裕依2439 use crate::{ 184ad52e57S裕依2439 arch::{rand::rand, sched::sched}, 194ad52e57S裕依2439 filesystem::vfs::{ 204ad52e57S裕依2439 file::FileMode, syscall::ModeType, FilePrivateData, FileSystem, FileType, IndexNode, 214ad52e57S裕依2439 Metadata, 224ad52e57S裕依2439 }, 234ad52e57S裕依2439 libs::{ 244ad52e57S裕依2439 rwlock::{RwLock, RwLockReadGuard, RwLockWriteGuard}, 254ad52e57S裕依2439 spinlock::{SpinLock, SpinLockGuard}, 264ad52e57S裕依2439 wait_queue::EventWaitQueue, 274ad52e57S裕依2439 }, 284ad52e57S裕依2439 }; 294ad52e57S裕依2439 306046f775S裕依 use self::{ 316046f775S裕依 inet::{RawSocket, TcpSocket, UdpSocket}, 326046f775S裕依 unix::{SeqpacketSocket, StreamSocket}, 336046f775S裕依 }; 344ad52e57S裕依2439 354ad52e57S裕依2439 use super::{ 364ad52e57S裕依2439 event_poll::{EPollEventType, EPollItem, EventPoll}, 374ad52e57S裕依2439 net_core::poll_ifaces, 384ad52e57S裕依2439 Endpoint, Protocol, ShutdownType, 394ad52e57S裕依2439 }; 404ad52e57S裕依2439 416046f775S裕依 pub mod inet; 426046f775S裕依 pub mod unix; 434ad52e57S裕依2439 444ad52e57S裕依2439 lazy_static! { 454ad52e57S裕依2439 /// 所有socket的集合 464ad52e57S裕依2439 /// TODO: 优化这里,自己实现SocketSet!!!现在这样的话,不管全局有多少个网卡,每个时间点都只会有1个进程能够访问socket 474ad52e57S裕依2439 pub static ref SOCKET_SET: SpinLock<SocketSet<'static >> = SpinLock::new(SocketSet::new(vec![])); 484ad52e57S裕依2439 /// SocketHandle表,每个SocketHandle对应一个SocketHandleItem, 494ad52e57S裕依2439 /// 注意!:在网卡中断中需要拿到这张表的,在获取读锁时应该确保关中断避免死锁 504ad52e57S裕依2439 pub static ref HANDLE_MAP: RwLock<HashMap<SocketHandle, SocketHandleItem>> = RwLock::new(HashMap::new()); 514ad52e57S裕依2439 /// 端口管理器 524ad52e57S裕依2439 pub static ref PORT_MANAGER: PortManager = PortManager::new(); 534ad52e57S裕依2439 } 544ad52e57S裕依2439 554ad52e57S裕依2439 /* For setsockopt(2) */ 564ad52e57S裕依2439 // See: linux-5.19.10/include/uapi/asm-generic/socket.h#9 574ad52e57S裕依2439 pub const SOL_SOCKET: u8 = 1; 584ad52e57S裕依2439 594ad52e57S裕依2439 /// 根据地址族、socket类型和协议创建socket 604ad52e57S裕依2439 pub(super) fn new_socket( 614ad52e57S裕依2439 address_family: AddressFamily, 624ad52e57S裕依2439 socket_type: PosixSocketType, 634ad52e57S裕依2439 protocol: Protocol, 644ad52e57S裕依2439 ) -> Result<Box<dyn Socket>, SystemError> { 654ad52e57S裕依2439 let socket: Box<dyn Socket> = match address_family { 664ad52e57S裕依2439 AddressFamily::Unix => match socket_type { 676046f775S裕依 PosixSocketType::Stream => Box::new(StreamSocket::new(SocketOptions::default())), 684ad52e57S裕依2439 PosixSocketType::SeqPacket => Box::new(SeqpacketSocket::new(SocketOptions::default())), 694ad52e57S裕依2439 _ => { 704ad52e57S裕依2439 return Err(SystemError::EINVAL); 714ad52e57S裕依2439 } 724ad52e57S裕依2439 }, 734ad52e57S裕依2439 AddressFamily::INet => match socket_type { 744ad52e57S裕依2439 PosixSocketType::Stream => Box::new(TcpSocket::new(SocketOptions::default())), 754ad52e57S裕依2439 PosixSocketType::Datagram => Box::new(UdpSocket::new(SocketOptions::default())), 764ad52e57S裕依2439 PosixSocketType::Raw => Box::new(RawSocket::new(protocol, SocketOptions::default())), 774ad52e57S裕依2439 _ => { 784ad52e57S裕依2439 return Err(SystemError::EINVAL); 794ad52e57S裕依2439 } 804ad52e57S裕依2439 }, 814ad52e57S裕依2439 _ => { 824ad52e57S裕依2439 return Err(SystemError::EAFNOSUPPORT); 834ad52e57S裕依2439 } 844ad52e57S裕依2439 }; 854ad52e57S裕依2439 Ok(socket) 864ad52e57S裕依2439 } 874ad52e57S裕依2439 884ad52e57S裕依2439 pub trait Socket: Sync + Send + Debug + Any { 894ad52e57S裕依2439 /// @brief 从socket中读取数据,如果socket是阻塞的,那么直到读取到数据才返回 904ad52e57S裕依2439 /// 914ad52e57S裕依2439 /// @param buf 读取到的数据存放的缓冲区 924ad52e57S裕依2439 /// 934ad52e57S裕依2439 /// @return - 成功:(返回读取的数据的长度,读取数据的端点). 944ad52e57S裕依2439 /// - 失败:错误码 956046f775S裕依 fn read(&self, buf: &mut [u8]) -> (Result<usize, SystemError>, Endpoint); 964ad52e57S裕依2439 974ad52e57S裕依2439 /// @brief 向socket中写入数据。如果socket是阻塞的,那么直到写入的数据全部写入socket中才返回 984ad52e57S裕依2439 /// 994ad52e57S裕依2439 /// @param buf 要写入的数据 1004ad52e57S裕依2439 /// @param to 要写入的目的端点,如果是None,那么写入的数据将会被丢弃 1014ad52e57S裕依2439 /// 1024ad52e57S裕依2439 /// @return 返回写入的数据的长度 1034ad52e57S裕依2439 fn write(&self, buf: &[u8], to: Option<Endpoint>) -> Result<usize, SystemError>; 1044ad52e57S裕依2439 1054ad52e57S裕依2439 /// @brief 对应于POSIX的connect函数,用于连接到指定的远程服务器端点 1064ad52e57S裕依2439 /// 1074ad52e57S裕依2439 /// It is used to establish a connection to a remote server. 1084ad52e57S裕依2439 /// When a socket is connected to a remote server, 1094ad52e57S裕依2439 /// the operating system will establish a network connection with the server 1104ad52e57S裕依2439 /// and allow data to be sent and received between the local socket and the remote server. 1114ad52e57S裕依2439 /// 1124ad52e57S裕依2439 /// @param endpoint 要连接的端点 1134ad52e57S裕依2439 /// 1144ad52e57S裕依2439 /// @return 返回连接是否成功 1156046f775S裕依 fn connect(&mut self, _endpoint: Endpoint) -> Result<(), SystemError>; 1164ad52e57S裕依2439 1174ad52e57S裕依2439 /// @brief 对应于POSIX的bind函数,用于绑定到本机指定的端点 1184ad52e57S裕依2439 /// 1194ad52e57S裕依2439 /// The bind() function is used to associate a socket with a particular IP address and port number on the local machine. 1204ad52e57S裕依2439 /// 1214ad52e57S裕依2439 /// @param endpoint 要绑定的端点 1224ad52e57S裕依2439 /// 1234ad52e57S裕依2439 /// @return 返回绑定是否成功 1244ad52e57S裕依2439 fn bind(&mut self, _endpoint: Endpoint) -> Result<(), SystemError> { 1256046f775S裕依 Err(SystemError::ENOSYS) 1264ad52e57S裕依2439 } 1274ad52e57S裕依2439 1284ad52e57S裕依2439 /// @brief 对应于 POSIX 的 shutdown 函数,用于关闭socket。 1294ad52e57S裕依2439 /// 1304ad52e57S裕依2439 /// shutdown() 函数用于启动网络连接的正常关闭。 1314ad52e57S裕依2439 /// 当在两个端点之间建立网络连接时,任一端点都可以通过调用其端点对象上的 shutdown() 函数来启动关闭序列。 1324ad52e57S裕依2439 /// 此函数向远程端点发送关闭消息以指示本地端点不再接受新数据。 1334ad52e57S裕依2439 /// 1344ad52e57S裕依2439 /// @return 返回是否成功关闭 1354ad52e57S裕依2439 fn shutdown(&mut self, _type: ShutdownType) -> Result<(), SystemError> { 1366046f775S裕依 Err(SystemError::ENOSYS) 1374ad52e57S裕依2439 } 1384ad52e57S裕依2439 1394ad52e57S裕依2439 /// @brief 对应于POSIX的listen函数,用于监听端点 1404ad52e57S裕依2439 /// 1414ad52e57S裕依2439 /// @param backlog 最大的等待连接数 1424ad52e57S裕依2439 /// 1434ad52e57S裕依2439 /// @return 返回监听是否成功 1444ad52e57S裕依2439 fn listen(&mut self, _backlog: usize) -> Result<(), SystemError> { 1456046f775S裕依 Err(SystemError::ENOSYS) 1464ad52e57S裕依2439 } 1474ad52e57S裕依2439 1484ad52e57S裕依2439 /// @brief 对应于POSIX的accept函数,用于接受连接 1494ad52e57S裕依2439 /// 1504ad52e57S裕依2439 /// @param endpoint 对端的端点 1514ad52e57S裕依2439 /// 1524ad52e57S裕依2439 /// @return 返回接受连接是否成功 1534ad52e57S裕依2439 fn accept(&mut self) -> Result<(Box<dyn Socket>, Endpoint), SystemError> { 1546046f775S裕依 Err(SystemError::ENOSYS) 1554ad52e57S裕依2439 } 1564ad52e57S裕依2439 1574ad52e57S裕依2439 /// @brief 获取socket的端点 1584ad52e57S裕依2439 /// 1594ad52e57S裕依2439 /// @return 返回socket的端点 1604ad52e57S裕依2439 fn endpoint(&self) -> Option<Endpoint> { 1616046f775S裕依 None 1624ad52e57S裕依2439 } 1634ad52e57S裕依2439 1644ad52e57S裕依2439 /// @brief 获取socket的对端端点 1654ad52e57S裕依2439 /// 1664ad52e57S裕依2439 /// @return 返回socket的对端端点 1674ad52e57S裕依2439 fn peer_endpoint(&self) -> Option<Endpoint> { 1684ad52e57S裕依2439 None 1694ad52e57S裕依2439 } 1704ad52e57S裕依2439 1714ad52e57S裕依2439 /// @brief 1724ad52e57S裕依2439 /// The purpose of the poll function is to provide 1734ad52e57S裕依2439 /// a non-blocking way to check if a socket is ready for reading or writing, 1744ad52e57S裕依2439 /// so that you can efficiently handle multiple sockets in a single thread or event loop. 1754ad52e57S裕依2439 /// 1764ad52e57S裕依2439 /// @return (in, out, err) 1774ad52e57S裕依2439 /// 1784ad52e57S裕依2439 /// The first boolean value indicates whether the socket is ready for reading. If it is true, then there is data available to be read from the socket without blocking. 1794ad52e57S裕依2439 /// The second boolean value indicates whether the socket is ready for writing. If it is true, then data can be written to the socket without blocking. 1804ad52e57S裕依2439 /// The third boolean value indicates whether the socket has encountered an error condition. If it is true, then the socket is in an error state and should be closed or reset 1814ad52e57S裕依2439 /// 1824ad52e57S裕依2439 fn poll(&self) -> EPollEventType { 1836046f775S裕依 EPollEventType::empty() 1844ad52e57S裕依2439 } 1854ad52e57S裕依2439 1864ad52e57S裕依2439 /// @brief socket的ioctl函数 1874ad52e57S裕依2439 /// 1884ad52e57S裕依2439 /// @param cmd ioctl命令 1894ad52e57S裕依2439 /// @param arg0 ioctl命令的第一个参数 1904ad52e57S裕依2439 /// @param arg1 ioctl命令的第二个参数 1914ad52e57S裕依2439 /// @param arg2 ioctl命令的第三个参数 1924ad52e57S裕依2439 /// 1934ad52e57S裕依2439 /// @return 返回ioctl命令的返回值 1944ad52e57S裕依2439 fn ioctl( 1954ad52e57S裕依2439 &self, 1964ad52e57S裕依2439 _cmd: usize, 1974ad52e57S裕依2439 _arg0: usize, 1984ad52e57S裕依2439 _arg1: usize, 1994ad52e57S裕依2439 _arg2: usize, 2004ad52e57S裕依2439 ) -> Result<usize, SystemError> { 2016046f775S裕依 Ok(0) 2024ad52e57S裕依2439 } 2034ad52e57S裕依2439 2044ad52e57S裕依2439 /// @brief 获取socket的元数据 2056046f775S裕依 fn metadata(&self) -> SocketMetadata; 2064ad52e57S裕依2439 2074ad52e57S裕依2439 fn box_clone(&self) -> Box<dyn Socket>; 2084ad52e57S裕依2439 2094ad52e57S裕依2439 /// @brief 设置socket的选项 2104ad52e57S裕依2439 /// 2114ad52e57S裕依2439 /// @param level 选项的层次 2124ad52e57S裕依2439 /// @param optname 选项的名称 2134ad52e57S裕依2439 /// @param optval 选项的值 2144ad52e57S裕依2439 /// 2154ad52e57S裕依2439 /// @return 返回设置是否成功, 如果不支持该选项,返回ENOSYS 2164ad52e57S裕依2439 fn setsockopt( 2174ad52e57S裕依2439 &self, 2184ad52e57S裕依2439 _level: usize, 2194ad52e57S裕依2439 _optname: usize, 2204ad52e57S裕依2439 _optval: &[u8], 2214ad52e57S裕依2439 ) -> Result<(), SystemError> { 2224ad52e57S裕依2439 kwarn!("setsockopt is not implemented"); 2236046f775S裕依 Ok(()) 2244ad52e57S裕依2439 } 2254ad52e57S裕依2439 2264ad52e57S裕依2439 fn socket_handle(&self) -> SocketHandle { 2274ad52e57S裕依2439 todo!() 2284ad52e57S裕依2439 } 2294ad52e57S裕依2439 2306046f775S裕依 fn write_buffer(&self, _buf: &[u8]) -> Result<usize, SystemError> { 2316046f775S裕依 todo!() 2326046f775S裕依 } 2336046f775S裕依 2346046f775S裕依 fn as_any_ref(&self) -> &dyn Any; 2356046f775S裕依 2366046f775S裕依 fn as_any_mut(&mut self) -> &mut dyn Any; 2376046f775S裕依 2384ad52e57S裕依2439 fn add_epoll(&mut self, epitem: Arc<EPollItem>) -> Result<(), SystemError> { 2394ad52e57S裕依2439 HANDLE_MAP 2404ad52e57S裕依2439 .write_irqsave() 2414ad52e57S裕依2439 .get_mut(&self.socket_handle()) 2424ad52e57S裕依2439 .unwrap() 2434ad52e57S裕依2439 .add_epoll(epitem); 2444ad52e57S裕依2439 Ok(()) 2454ad52e57S裕依2439 } 2464ad52e57S裕依2439 2474ad52e57S裕依2439 fn remove_epoll(&mut self, epoll: &Weak<SpinLock<EventPoll>>) -> Result<(), SystemError> { 2484ad52e57S裕依2439 HANDLE_MAP 2494ad52e57S裕依2439 .write_irqsave() 2504ad52e57S裕依2439 .get_mut(&self.socket_handle()) 2514ad52e57S裕依2439 .unwrap() 2524ad52e57S裕依2439 .remove_epoll(epoll)?; 2534ad52e57S裕依2439 2544ad52e57S裕依2439 Ok(()) 2554ad52e57S裕依2439 } 2564ad52e57S裕依2439 2574ad52e57S裕依2439 fn clear_epoll(&mut self) -> Result<(), SystemError> { 2584ad52e57S裕依2439 let mut handle_map_guard = HANDLE_MAP.write_irqsave(); 2594ad52e57S裕依2439 let handle_item = handle_map_guard.get_mut(&self.socket_handle()).unwrap(); 2604ad52e57S裕依2439 2614ad52e57S裕依2439 for epitem in handle_item.epitems.lock_irqsave().iter() { 2624ad52e57S裕依2439 let epoll = epitem.epoll(); 2634ad52e57S裕依2439 if epoll.upgrade().is_some() { 2644ad52e57S裕依2439 EventPoll::ep_remove( 2654ad52e57S裕依2439 &mut epoll.upgrade().unwrap().lock_irqsave(), 2664ad52e57S裕依2439 epitem.fd(), 2674ad52e57S裕依2439 None, 2684ad52e57S裕依2439 )?; 2694ad52e57S裕依2439 } 2704ad52e57S裕依2439 } 2714ad52e57S裕依2439 2724ad52e57S裕依2439 Ok(()) 2734ad52e57S裕依2439 } 2744ad52e57S裕依2439 } 2754ad52e57S裕依2439 2764ad52e57S裕依2439 impl Clone for Box<dyn Socket> { 2774ad52e57S裕依2439 fn clone(&self) -> Box<dyn Socket> { 2784ad52e57S裕依2439 self.box_clone() 2794ad52e57S裕依2439 } 2804ad52e57S裕依2439 } 2814ad52e57S裕依2439 2824ad52e57S裕依2439 /// # Socket在文件系统中的inode封装 2834ad52e57S裕依2439 #[derive(Debug)] 2844ad52e57S裕依2439 pub struct SocketInode(SpinLock<Box<dyn Socket>>, AtomicUsize); 2854ad52e57S裕依2439 2864ad52e57S裕依2439 impl SocketInode { 2874ad52e57S裕依2439 pub fn new(socket: Box<dyn Socket>) -> Arc<Self> { 2884ad52e57S裕依2439 Arc::new(Self(SpinLock::new(socket), AtomicUsize::new(0))) 2894ad52e57S裕依2439 } 2904ad52e57S裕依2439 2914ad52e57S裕依2439 #[inline] 2924ad52e57S裕依2439 pub fn inner(&self) -> SpinLockGuard<Box<dyn Socket>> { 2936046f775S裕依 self.0.lock() 2944ad52e57S裕依2439 } 2954ad52e57S裕依2439 2964ad52e57S裕依2439 pub unsafe fn inner_no_preempt(&self) -> SpinLockGuard<Box<dyn Socket>> { 2976046f775S裕依 self.0.lock_no_preempt() 2984ad52e57S裕依2439 } 2994ad52e57S裕依2439 } 3004ad52e57S裕依2439 3014ad52e57S裕依2439 impl IndexNode for SocketInode { 302*dfe53cf0SGnoCiYeH fn open( 303*dfe53cf0SGnoCiYeH &self, 304*dfe53cf0SGnoCiYeH _data: SpinLockGuard<FilePrivateData>, 305*dfe53cf0SGnoCiYeH _mode: &FileMode, 306*dfe53cf0SGnoCiYeH ) -> Result<(), SystemError> { 3074ad52e57S裕依2439 self.1.fetch_add(1, core::sync::atomic::Ordering::SeqCst); 3084ad52e57S裕依2439 Ok(()) 3094ad52e57S裕依2439 } 3104ad52e57S裕依2439 311*dfe53cf0SGnoCiYeH fn close(&self, _data: SpinLockGuard<FilePrivateData>) -> Result<(), SystemError> { 3124ad52e57S裕依2439 let prev_ref_count = self.1.fetch_sub(1, core::sync::atomic::Ordering::SeqCst); 3134ad52e57S裕依2439 if prev_ref_count == 1 { 3144ad52e57S裕依2439 // 最后一次关闭,需要释放 3154ad52e57S裕依2439 let mut socket = self.0.lock_irqsave(); 3164ad52e57S裕依2439 3176046f775S裕依 if socket.metadata().socket_type == SocketType::Unix { 3184ad52e57S裕依2439 return Ok(()); 3194ad52e57S裕依2439 } 3204ad52e57S裕依2439 3214ad52e57S裕依2439 if let Some(Endpoint::Ip(Some(ip))) = socket.endpoint() { 3226046f775S裕依 PORT_MANAGER.unbind_port(socket.metadata().socket_type, ip.port)?; 3234ad52e57S裕依2439 } 3244ad52e57S裕依2439 3254ad52e57S裕依2439 socket.clear_epoll()?; 3264ad52e57S裕依2439 3274ad52e57S裕依2439 HANDLE_MAP 3284ad52e57S裕依2439 .write_irqsave() 3294ad52e57S裕依2439 .remove(&socket.socket_handle()) 3304ad52e57S裕依2439 .unwrap(); 3314ad52e57S裕依2439 } 3324ad52e57S裕依2439 Ok(()) 3334ad52e57S裕依2439 } 3344ad52e57S裕依2439 3354ad52e57S裕依2439 fn read_at( 3364ad52e57S裕依2439 &self, 3374ad52e57S裕依2439 _offset: usize, 3384ad52e57S裕依2439 len: usize, 3394ad52e57S裕依2439 buf: &mut [u8], 340*dfe53cf0SGnoCiYeH _data: SpinLockGuard<FilePrivateData>, 3414ad52e57S裕依2439 ) -> Result<usize, SystemError> { 3426046f775S裕依 self.0.lock_no_preempt().read(&mut buf[0..len]).0 3434ad52e57S裕依2439 } 3444ad52e57S裕依2439 3454ad52e57S裕依2439 fn write_at( 3464ad52e57S裕依2439 &self, 3474ad52e57S裕依2439 _offset: usize, 3484ad52e57S裕依2439 len: usize, 3494ad52e57S裕依2439 buf: &[u8], 350*dfe53cf0SGnoCiYeH _data: SpinLockGuard<FilePrivateData>, 3514ad52e57S裕依2439 ) -> Result<usize, SystemError> { 3526046f775S裕依 self.0.lock_no_preempt().write(&buf[0..len], None) 3534ad52e57S裕依2439 } 3544ad52e57S裕依2439 3554ad52e57S裕依2439 fn poll(&self, _private_data: &FilePrivateData) -> Result<usize, SystemError> { 3564ad52e57S裕依2439 let events = self.0.lock_irqsave().poll(); 3574ad52e57S裕依2439 return Ok(events.bits() as usize); 3584ad52e57S裕依2439 } 3594ad52e57S裕依2439 3604ad52e57S裕依2439 fn fs(&self) -> Arc<dyn FileSystem> { 3614ad52e57S裕依2439 todo!() 3624ad52e57S裕依2439 } 3634ad52e57S裕依2439 3644ad52e57S裕依2439 fn as_any_ref(&self) -> &dyn Any { 3654ad52e57S裕依2439 self 3664ad52e57S裕依2439 } 3674ad52e57S裕依2439 3684ad52e57S裕依2439 fn list(&self) -> Result<Vec<String>, SystemError> { 3694ad52e57S裕依2439 return Err(SystemError::ENOTDIR); 3704ad52e57S裕依2439 } 3714ad52e57S裕依2439 3724ad52e57S裕依2439 fn metadata(&self) -> Result<Metadata, SystemError> { 3734ad52e57S裕依2439 let meta = Metadata { 3744ad52e57S裕依2439 mode: ModeType::from_bits_truncate(0o755), 3754ad52e57S裕依2439 file_type: FileType::Socket, 3764ad52e57S裕依2439 ..Default::default() 3774ad52e57S裕依2439 }; 3784ad52e57S裕依2439 3794ad52e57S裕依2439 return Ok(meta); 3804ad52e57S裕依2439 } 3814ad52e57S裕依2439 3824ad52e57S裕依2439 fn resize(&self, _len: usize) -> Result<(), SystemError> { 3834ad52e57S裕依2439 return Ok(()); 3844ad52e57S裕依2439 } 3854ad52e57S裕依2439 } 3864ad52e57S裕依2439 3874ad52e57S裕依2439 #[derive(Debug)] 3884ad52e57S裕依2439 pub struct SocketHandleItem { 3894ad52e57S裕依2439 /// shutdown状态 3904ad52e57S裕依2439 pub shutdown_type: RwLock<ShutdownType>, 3914ad52e57S裕依2439 /// socket的waitqueue 3924ad52e57S裕依2439 pub wait_queue: EventWaitQueue, 3934ad52e57S裕依2439 /// epitems,考虑写在这是否是最优解? 3944ad52e57S裕依2439 pub epitems: SpinLock<LinkedList<Arc<EPollItem>>>, 3954ad52e57S裕依2439 } 3964ad52e57S裕依2439 3974ad52e57S裕依2439 impl SocketHandleItem { 3986046f775S裕依 pub fn new() -> Self { 3994ad52e57S裕依2439 Self { 4004ad52e57S裕依2439 shutdown_type: RwLock::new(ShutdownType::empty()), 4014ad52e57S裕依2439 wait_queue: EventWaitQueue::new(), 4024ad52e57S裕依2439 epitems: SpinLock::new(LinkedList::new()), 4034ad52e57S裕依2439 } 4044ad52e57S裕依2439 } 4054ad52e57S裕依2439 4066046f775S裕依 /// ## 在socket的等待队列上睡眠 4074ad52e57S裕依2439 pub fn sleep( 4084ad52e57S裕依2439 socket_handle: SocketHandle, 4094ad52e57S裕依2439 events: u64, 4104ad52e57S裕依2439 handle_map_guard: RwLockReadGuard<'_, HashMap<SocketHandle, SocketHandleItem>>, 4114ad52e57S裕依2439 ) { 4124ad52e57S裕依2439 unsafe { 4134ad52e57S裕依2439 handle_map_guard 4144ad52e57S裕依2439 .get(&socket_handle) 4154ad52e57S裕依2439 .unwrap() 4164ad52e57S裕依2439 .wait_queue 4174ad52e57S裕依2439 .sleep_without_schedule(events) 4184ad52e57S裕依2439 }; 4194ad52e57S裕依2439 drop(handle_map_guard); 4204ad52e57S裕依2439 sched(); 4214ad52e57S裕依2439 } 4224ad52e57S裕依2439 4234ad52e57S裕依2439 pub fn shutdown_type(&self) -> ShutdownType { 424b5b571e0SLoGin *self.shutdown_type.read() 4254ad52e57S裕依2439 } 4264ad52e57S裕依2439 4274ad52e57S裕依2439 pub fn shutdown_type_writer(&mut self) -> RwLockWriteGuard<ShutdownType> { 4284ad52e57S裕依2439 self.shutdown_type.write_irqsave() 4294ad52e57S裕依2439 } 4304ad52e57S裕依2439 4314ad52e57S裕依2439 pub fn add_epoll(&mut self, epitem: Arc<EPollItem>) { 4324ad52e57S裕依2439 self.epitems.lock_irqsave().push_back(epitem) 4334ad52e57S裕依2439 } 4344ad52e57S裕依2439 4354ad52e57S裕依2439 pub fn remove_epoll(&mut self, epoll: &Weak<SpinLock<EventPoll>>) -> Result<(), SystemError> { 4364ad52e57S裕依2439 let is_remove = !self 4374ad52e57S裕依2439 .epitems 4384ad52e57S裕依2439 .lock_irqsave() 4394ad52e57S裕依2439 .extract_if(|x| x.epoll().ptr_eq(epoll)) 4404ad52e57S裕依2439 .collect::<Vec<_>>() 4414ad52e57S裕依2439 .is_empty(); 4424ad52e57S裕依2439 4434ad52e57S裕依2439 if is_remove { 4444ad52e57S裕依2439 return Ok(()); 4454ad52e57S裕依2439 } 4464ad52e57S裕依2439 4474ad52e57S裕依2439 Err(SystemError::ENOENT) 4484ad52e57S裕依2439 } 4494ad52e57S裕依2439 } 4504ad52e57S裕依2439 4514ad52e57S裕依2439 /// # TCP 和 UDP 的端口管理器。 4524ad52e57S裕依2439 /// 如果 TCP/UDP 的 socket 绑定了某个端口,它会在对应的表中记录,以检测端口冲突。 4534ad52e57S裕依2439 pub struct PortManager { 4544ad52e57S裕依2439 // TCP 端口记录表 4554ad52e57S裕依2439 tcp_port_table: SpinLock<HashMap<u16, Arc<GlobalSocketHandle>>>, 4564ad52e57S裕依2439 // UDP 端口记录表 4574ad52e57S裕依2439 udp_port_table: SpinLock<HashMap<u16, Arc<GlobalSocketHandle>>>, 4584ad52e57S裕依2439 } 4594ad52e57S裕依2439 4604ad52e57S裕依2439 impl PortManager { 4614ad52e57S裕依2439 pub fn new() -> Self { 4624ad52e57S裕依2439 return Self { 4634ad52e57S裕依2439 tcp_port_table: SpinLock::new(HashMap::new()), 4644ad52e57S裕依2439 udp_port_table: SpinLock::new(HashMap::new()), 4654ad52e57S裕依2439 }; 4664ad52e57S裕依2439 } 4674ad52e57S裕依2439 4684ad52e57S裕依2439 /// @brief 自动分配一个相对应协议中未被使用的PORT,如果动态端口均已被占用,返回错误码 EADDRINUSE 4694ad52e57S裕依2439 pub fn get_ephemeral_port(&self, socket_type: SocketType) -> Result<u16, SystemError> { 4704ad52e57S裕依2439 // TODO: selects non-conflict high port 4714ad52e57S裕依2439 4724ad52e57S裕依2439 static mut EPHEMERAL_PORT: u16 = 0; 4734ad52e57S裕依2439 unsafe { 4744ad52e57S裕依2439 if EPHEMERAL_PORT == 0 { 4754ad52e57S裕依2439 EPHEMERAL_PORT = (49152 + rand() % (65536 - 49152)) as u16; 4764ad52e57S裕依2439 } 4774ad52e57S裕依2439 } 4784ad52e57S裕依2439 4794ad52e57S裕依2439 let mut remaining = 65536 - 49152; // 剩余尝试分配端口次数 4804ad52e57S裕依2439 let mut port: u16; 4814ad52e57S裕依2439 while remaining > 0 { 4824ad52e57S裕依2439 unsafe { 4834ad52e57S裕依2439 if EPHEMERAL_PORT == 65535 { 4844ad52e57S裕依2439 EPHEMERAL_PORT = 49152; 4854ad52e57S裕依2439 } else { 486b5b571e0SLoGin EPHEMERAL_PORT += 1; 4874ad52e57S裕依2439 } 4884ad52e57S裕依2439 port = EPHEMERAL_PORT; 4894ad52e57S裕依2439 } 4904ad52e57S裕依2439 4914ad52e57S裕依2439 // 使用 ListenTable 检查端口是否被占用 4924ad52e57S裕依2439 let listen_table_guard = match socket_type { 493b5b571e0SLoGin SocketType::Udp => self.udp_port_table.lock(), 494b5b571e0SLoGin SocketType::Tcp => self.tcp_port_table.lock(), 4954ad52e57S裕依2439 _ => panic!("{:?} cann't get a port", socket_type), 4964ad52e57S裕依2439 }; 497b5b571e0SLoGin if listen_table_guard.get(&port).is_none() { 4984ad52e57S裕依2439 drop(listen_table_guard); 4994ad52e57S裕依2439 return Ok(port); 5004ad52e57S裕依2439 } 5014ad52e57S裕依2439 remaining -= 1; 5024ad52e57S裕依2439 } 5034ad52e57S裕依2439 return Err(SystemError::EADDRINUSE); 5044ad52e57S裕依2439 } 5054ad52e57S裕依2439 5064ad52e57S裕依2439 /// @brief 检测给定端口是否已被占用,如果未被占用则在 TCP/UDP 对应的表中记录 5074ad52e57S裕依2439 /// 5084ad52e57S裕依2439 /// TODO: 增加支持端口复用的逻辑 5094ad52e57S裕依2439 pub fn bind_port( 5104ad52e57S裕依2439 &self, 5114ad52e57S裕依2439 socket_type: SocketType, 5124ad52e57S裕依2439 port: u16, 5134ad52e57S裕依2439 handle: Arc<GlobalSocketHandle>, 5144ad52e57S裕依2439 ) -> Result<(), SystemError> { 5154ad52e57S裕依2439 if port > 0 { 5164ad52e57S裕依2439 let mut listen_table_guard = match socket_type { 517b5b571e0SLoGin SocketType::Udp => self.udp_port_table.lock(), 518b5b571e0SLoGin SocketType::Tcp => self.tcp_port_table.lock(), 5194ad52e57S裕依2439 _ => panic!("{:?} cann't bind a port", socket_type), 5204ad52e57S裕依2439 }; 5214ad52e57S裕依2439 match listen_table_guard.get(&port) { 5224ad52e57S裕依2439 Some(_) => return Err(SystemError::EADDRINUSE), 5234ad52e57S裕依2439 None => listen_table_guard.insert(port, handle), 5244ad52e57S裕依2439 }; 5254ad52e57S裕依2439 drop(listen_table_guard); 5264ad52e57S裕依2439 } 5274ad52e57S裕依2439 return Ok(()); 5284ad52e57S裕依2439 } 5294ad52e57S裕依2439 5304ad52e57S裕依2439 /// @brief 在对应的端口记录表中将端口和 socket 解绑 5314ad52e57S裕依2439 pub fn unbind_port(&self, socket_type: SocketType, port: u16) -> Result<(), SystemError> { 5324ad52e57S裕依2439 let mut listen_table_guard = match socket_type { 533b5b571e0SLoGin SocketType::Udp => self.udp_port_table.lock(), 534b5b571e0SLoGin SocketType::Tcp => self.tcp_port_table.lock(), 5354ad52e57S裕依2439 _ => return Ok(()), 5364ad52e57S裕依2439 }; 5374ad52e57S裕依2439 listen_table_guard.remove(&port); 5384ad52e57S裕依2439 drop(listen_table_guard); 5394ad52e57S裕依2439 return Ok(()); 5404ad52e57S裕依2439 } 5414ad52e57S裕依2439 } 5424ad52e57S裕依2439 5434ad52e57S裕依2439 /// # socket的句柄管理组件 5444ad52e57S裕依2439 /// 它在smoltcp的SocketHandle上封装了一层,增加更多的功能。 5454ad52e57S裕依2439 /// 比如,在socket被关闭时,自动释放socket的资源,通知系统的其他组件。 5464ad52e57S裕依2439 #[derive(Debug)] 5474ad52e57S裕依2439 pub struct GlobalSocketHandle(SocketHandle); 5484ad52e57S裕依2439 5494ad52e57S裕依2439 impl GlobalSocketHandle { 5504ad52e57S裕依2439 pub fn new(handle: SocketHandle) -> Arc<Self> { 5514ad52e57S裕依2439 return Arc::new(Self(handle)); 5524ad52e57S裕依2439 } 5534ad52e57S裕依2439 } 5544ad52e57S裕依2439 5554ad52e57S裕依2439 impl Clone for GlobalSocketHandle { 5564ad52e57S裕依2439 fn clone(&self) -> Self { 5574ad52e57S裕依2439 Self(self.0) 5584ad52e57S裕依2439 } 5594ad52e57S裕依2439 } 5604ad52e57S裕依2439 5614ad52e57S裕依2439 impl Drop for GlobalSocketHandle { 5624ad52e57S裕依2439 fn drop(&mut self) { 5634ad52e57S裕依2439 let mut socket_set_guard = SOCKET_SET.lock_irqsave(); 5644ad52e57S裕依2439 socket_set_guard.remove(self.0); // 删除的时候,会发送一条FINISH的信息? 5654ad52e57S裕依2439 drop(socket_set_guard); 5664ad52e57S裕依2439 poll_ifaces(); 5674ad52e57S裕依2439 } 5684ad52e57S裕依2439 } 5694ad52e57S裕依2439 5704ad52e57S裕依2439 /// @brief socket的类型 5714ad52e57S裕依2439 #[derive(Debug, Clone, Copy, PartialEq)] 5724ad52e57S裕依2439 pub enum SocketType { 5734ad52e57S裕依2439 /// 原始的socket 574b5b571e0SLoGin Raw, 5754ad52e57S裕依2439 /// 用于Tcp通信的 Socket 576b5b571e0SLoGin Tcp, 5774ad52e57S裕依2439 /// 用于Udp通信的 Socket 578b5b571e0SLoGin Udp, 5796046f775S裕依 /// unix域的 Socket 5806046f775S裕依 Unix, 5814ad52e57S裕依2439 } 5824ad52e57S裕依2439 5834ad52e57S裕依2439 bitflags! { 5844ad52e57S裕依2439 /// @brief socket的选项 5854ad52e57S裕依2439 #[derive(Default)] 5864ad52e57S裕依2439 pub struct SocketOptions: u32 { 5874ad52e57S裕依2439 /// 是否阻塞 5884ad52e57S裕依2439 const BLOCK = 1 << 0; 5894ad52e57S裕依2439 /// 是否允许广播 5904ad52e57S裕依2439 const BROADCAST = 1 << 1; 5914ad52e57S裕依2439 /// 是否允许多播 5924ad52e57S裕依2439 const MULTICAST = 1 << 2; 5934ad52e57S裕依2439 /// 是否允许重用地址 5944ad52e57S裕依2439 const REUSEADDR = 1 << 3; 5954ad52e57S裕依2439 /// 是否允许重用端口 5964ad52e57S裕依2439 const REUSEPORT = 1 << 4; 5974ad52e57S裕依2439 } 5984ad52e57S裕依2439 } 5994ad52e57S裕依2439 6004ad52e57S裕依2439 #[derive(Debug, Clone)] 6014ad52e57S裕依2439 /// @brief 在trait Socket的metadata函数中返回该结构体供外部使用 6024ad52e57S裕依2439 pub struct SocketMetadata { 6034ad52e57S裕依2439 /// socket的类型 6044ad52e57S裕依2439 pub socket_type: SocketType, 6054ad52e57S裕依2439 /// 接收缓冲区的大小 6064ad52e57S裕依2439 pub rx_buf_size: usize, 6074ad52e57S裕依2439 /// 发送缓冲区的大小 6084ad52e57S裕依2439 pub tx_buf_size: usize, 6094ad52e57S裕依2439 /// 元数据的缓冲区的大小 6104ad52e57S裕依2439 pub metadata_buf_size: usize, 6114ad52e57S裕依2439 /// socket的选项 6124ad52e57S裕依2439 pub options: SocketOptions, 6134ad52e57S裕依2439 } 6144ad52e57S裕依2439 6154ad52e57S裕依2439 impl SocketMetadata { 6164ad52e57S裕依2439 fn new( 6174ad52e57S裕依2439 socket_type: SocketType, 6184ad52e57S裕依2439 rx_buf_size: usize, 6194ad52e57S裕依2439 tx_buf_size: usize, 6204ad52e57S裕依2439 metadata_buf_size: usize, 6214ad52e57S裕依2439 options: SocketOptions, 6224ad52e57S裕依2439 ) -> Self { 6234ad52e57S裕依2439 Self { 6244ad52e57S裕依2439 socket_type, 6254ad52e57S裕依2439 rx_buf_size, 6264ad52e57S裕依2439 tx_buf_size, 6274ad52e57S裕依2439 metadata_buf_size, 6284ad52e57S裕依2439 options, 6294ad52e57S裕依2439 } 6304ad52e57S裕依2439 } 6314ad52e57S裕依2439 } 6324ad52e57S裕依2439 6334ad52e57S裕依2439 /// @brief 地址族的枚举 6344ad52e57S裕依2439 /// 6354ad52e57S裕依2439 /// 参考:https://code.dragonos.org.cn/xref/linux-5.19.10/include/linux/socket.h#180 6364ad52e57S裕依2439 #[derive(Debug, Clone, Copy, PartialEq, Eq, FromPrimitive, ToPrimitive)] 6374ad52e57S裕依2439 pub enum AddressFamily { 6384ad52e57S裕依2439 /// AF_UNSPEC 表示地址族未指定 6394ad52e57S裕依2439 Unspecified = 0, 6404ad52e57S裕依2439 /// AF_UNIX 表示Unix域的socket (与AF_LOCAL相同) 6414ad52e57S裕依2439 Unix = 1, 6424ad52e57S裕依2439 /// AF_INET 表示IPv4的socket 6434ad52e57S裕依2439 INet = 2, 6444ad52e57S裕依2439 /// AF_AX25 表示AMPR AX.25的socket 6454ad52e57S裕依2439 AX25 = 3, 6464ad52e57S裕依2439 /// AF_IPX 表示IPX的socket 6474ad52e57S裕依2439 IPX = 4, 6484ad52e57S裕依2439 /// AF_APPLETALK 表示Appletalk的socket 6494ad52e57S裕依2439 Appletalk = 5, 6504ad52e57S裕依2439 /// AF_NETROM 表示AMPR NET/ROM的socket 6514ad52e57S裕依2439 Netrom = 6, 6524ad52e57S裕依2439 /// AF_BRIDGE 表示多协议桥接的socket 6534ad52e57S裕依2439 Bridge = 7, 6544ad52e57S裕依2439 /// AF_ATMPVC 表示ATM PVCs的socket 6554ad52e57S裕依2439 Atmpvc = 8, 6564ad52e57S裕依2439 /// AF_X25 表示X.25的socket 6574ad52e57S裕依2439 X25 = 9, 6584ad52e57S裕依2439 /// AF_INET6 表示IPv6的socket 6594ad52e57S裕依2439 INet6 = 10, 6604ad52e57S裕依2439 /// AF_ROSE 表示AMPR ROSE的socket 6614ad52e57S裕依2439 Rose = 11, 6624ad52e57S裕依2439 /// AF_DECnet Reserved for DECnet project 6634ad52e57S裕依2439 Decnet = 12, 6644ad52e57S裕依2439 /// AF_NETBEUI Reserved for 802.2LLC project 6654ad52e57S裕依2439 Netbeui = 13, 6664ad52e57S裕依2439 /// AF_SECURITY 表示Security callback的伪AF 6674ad52e57S裕依2439 Security = 14, 6684ad52e57S裕依2439 /// AF_KEY 表示Key management API 6694ad52e57S裕依2439 Key = 15, 6704ad52e57S裕依2439 /// AF_NETLINK 表示Netlink的socket 6714ad52e57S裕依2439 Netlink = 16, 6724ad52e57S裕依2439 /// AF_PACKET 表示Low level packet interface 6734ad52e57S裕依2439 Packet = 17, 6744ad52e57S裕依2439 /// AF_ASH 表示Ash 6754ad52e57S裕依2439 Ash = 18, 6764ad52e57S裕依2439 /// AF_ECONET 表示Acorn Econet 6774ad52e57S裕依2439 Econet = 19, 6784ad52e57S裕依2439 /// AF_ATMSVC 表示ATM SVCs 6794ad52e57S裕依2439 Atmsvc = 20, 6804ad52e57S裕依2439 /// AF_RDS 表示Reliable Datagram Sockets 6814ad52e57S裕依2439 Rds = 21, 6824ad52e57S裕依2439 /// AF_SNA 表示Linux SNA Project 6834ad52e57S裕依2439 Sna = 22, 6844ad52e57S裕依2439 /// AF_IRDA 表示IRDA sockets 6854ad52e57S裕依2439 Irda = 23, 6864ad52e57S裕依2439 /// AF_PPPOX 表示PPPoX sockets 6874ad52e57S裕依2439 Pppox = 24, 6884ad52e57S裕依2439 /// AF_WANPIPE 表示WANPIPE API sockets 6894ad52e57S裕依2439 WanPipe = 25, 6904ad52e57S裕依2439 /// AF_LLC 表示Linux LLC 6914ad52e57S裕依2439 Llc = 26, 6924ad52e57S裕依2439 /// AF_IB 表示Native InfiniBand address 6934ad52e57S裕依2439 /// 介绍:https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/9/html-single/configuring_infiniband_and_rdma_networks/index#understanding-infiniband-and-rdma_configuring-infiniband-and-rdma-networks 6944ad52e57S裕依2439 Ib = 27, 6954ad52e57S裕依2439 /// AF_MPLS 表示MPLS 6964ad52e57S裕依2439 Mpls = 28, 6974ad52e57S裕依2439 /// AF_CAN 表示Controller Area Network 6984ad52e57S裕依2439 Can = 29, 6994ad52e57S裕依2439 /// AF_TIPC 表示TIPC sockets 7004ad52e57S裕依2439 Tipc = 30, 7014ad52e57S裕依2439 /// AF_BLUETOOTH 表示Bluetooth sockets 7024ad52e57S裕依2439 Bluetooth = 31, 7034ad52e57S裕依2439 /// AF_IUCV 表示IUCV sockets 7044ad52e57S裕依2439 Iucv = 32, 7054ad52e57S裕依2439 /// AF_RXRPC 表示RxRPC sockets 7064ad52e57S裕依2439 Rxrpc = 33, 7074ad52e57S裕依2439 /// AF_ISDN 表示mISDN sockets 7084ad52e57S裕依2439 Isdn = 34, 7094ad52e57S裕依2439 /// AF_PHONET 表示Phonet sockets 7104ad52e57S裕依2439 Phonet = 35, 7114ad52e57S裕依2439 /// AF_IEEE802154 表示IEEE 802.15.4 sockets 7124ad52e57S裕依2439 Ieee802154 = 36, 7134ad52e57S裕依2439 /// AF_CAIF 表示CAIF sockets 7144ad52e57S裕依2439 Caif = 37, 7154ad52e57S裕依2439 /// AF_ALG 表示Algorithm sockets 7164ad52e57S裕依2439 Alg = 38, 7174ad52e57S裕依2439 /// AF_NFC 表示NFC sockets 7184ad52e57S裕依2439 Nfc = 39, 7194ad52e57S裕依2439 /// AF_VSOCK 表示vSockets 7204ad52e57S裕依2439 Vsock = 40, 7214ad52e57S裕依2439 /// AF_KCM 表示Kernel Connection Multiplexor 7224ad52e57S裕依2439 Kcm = 41, 7234ad52e57S裕依2439 /// AF_QIPCRTR 表示Qualcomm IPC Router 7244ad52e57S裕依2439 Qipcrtr = 42, 7254ad52e57S裕依2439 /// AF_SMC 表示SMC-R sockets. 7264ad52e57S裕依2439 /// reserve number for PF_SMC protocol family that reuses AF_INET address family 7274ad52e57S裕依2439 Smc = 43, 7284ad52e57S裕依2439 /// AF_XDP 表示XDP sockets 7294ad52e57S裕依2439 Xdp = 44, 7304ad52e57S裕依2439 /// AF_MCTP 表示Management Component Transport Protocol 7314ad52e57S裕依2439 Mctp = 45, 7324ad52e57S裕依2439 /// AF_MAX 表示最大的地址族 7334ad52e57S裕依2439 Max = 46, 7344ad52e57S裕依2439 } 7354ad52e57S裕依2439 7364ad52e57S裕依2439 impl TryFrom<u16> for AddressFamily { 7374ad52e57S裕依2439 type Error = SystemError; 7384ad52e57S裕依2439 fn try_from(x: u16) -> Result<Self, Self::Error> { 7394ad52e57S裕依2439 use num_traits::FromPrimitive; 740b5b571e0SLoGin return <Self as FromPrimitive>::from_u16(x).ok_or(SystemError::EINVAL); 7414ad52e57S裕依2439 } 7424ad52e57S裕依2439 } 7434ad52e57S裕依2439 7444ad52e57S裕依2439 /// @brief posix套接字类型的枚举(这些值与linux内核中的值一致) 7454ad52e57S裕依2439 #[derive(Debug, Clone, Copy, PartialEq, Eq, FromPrimitive, ToPrimitive)] 7464ad52e57S裕依2439 pub enum PosixSocketType { 7474ad52e57S裕依2439 Stream = 1, 7484ad52e57S裕依2439 Datagram = 2, 7494ad52e57S裕依2439 Raw = 3, 7504ad52e57S裕依2439 Rdm = 4, 7514ad52e57S裕依2439 SeqPacket = 5, 7524ad52e57S裕依2439 Dccp = 6, 7534ad52e57S裕依2439 Packet = 10, 7544ad52e57S裕依2439 } 7554ad52e57S裕依2439 7564ad52e57S裕依2439 impl TryFrom<u8> for PosixSocketType { 7574ad52e57S裕依2439 type Error = SystemError; 7584ad52e57S裕依2439 fn try_from(x: u8) -> Result<Self, Self::Error> { 7594ad52e57S裕依2439 use num_traits::FromPrimitive; 760b5b571e0SLoGin return <Self as FromPrimitive>::from_u8(x).ok_or(SystemError::EINVAL); 7614ad52e57S裕依2439 } 7624ad52e57S裕依2439 } 7634ad52e57S裕依2439 7644ad52e57S裕依2439 /// ### 为socket提供无锁的poll方法 7654ad52e57S裕依2439 /// 7664ad52e57S裕依2439 /// 因为在网卡中断中,需要轮询socket的状态,如果使用socket文件或者其inode来poll 7674ad52e57S裕依2439 /// 在当前的设计,会必然死锁,所以引用这一个设计来解决,提供无的poll 7684ad52e57S裕依2439 pub struct SocketPollMethod; 7694ad52e57S裕依2439 7704ad52e57S裕依2439 impl SocketPollMethod { 7714ad52e57S裕依2439 pub fn poll(socket: &socket::Socket, shutdown: ShutdownType) -> EPollEventType { 7724ad52e57S裕依2439 match socket { 7734ad52e57S裕依2439 socket::Socket::Udp(udp) => Self::udp_poll(udp, shutdown), 7744ad52e57S裕依2439 socket::Socket::Tcp(tcp) => Self::tcp_poll(tcp, shutdown), 7754ad52e57S裕依2439 _ => todo!(), 7764ad52e57S裕依2439 } 7774ad52e57S裕依2439 } 7784ad52e57S裕依2439 7794ad52e57S裕依2439 pub fn tcp_poll(socket: &tcp::Socket, shutdown: ShutdownType) -> EPollEventType { 7804ad52e57S裕依2439 let mut events = EPollEventType::empty(); 7814ad52e57S裕依2439 if socket.is_listening() && socket.is_active() { 7824ad52e57S裕依2439 events.insert(EPollEventType::EPOLLIN | EPollEventType::EPOLLRDNORM); 7834ad52e57S裕依2439 return events; 7844ad52e57S裕依2439 } 7854ad52e57S裕依2439 7864ad52e57S裕依2439 // socket已经关闭 7874ad52e57S裕依2439 if !socket.is_open() { 7884ad52e57S裕依2439 events.insert(EPollEventType::EPOLLHUP) 7894ad52e57S裕依2439 } 7904ad52e57S裕依2439 if shutdown.contains(ShutdownType::RCV_SHUTDOWN) { 7914ad52e57S裕依2439 events.insert( 7924ad52e57S裕依2439 EPollEventType::EPOLLIN | EPollEventType::EPOLLRDNORM | EPollEventType::EPOLLRDHUP, 7934ad52e57S裕依2439 ); 7944ad52e57S裕依2439 } 7954ad52e57S裕依2439 7964ad52e57S裕依2439 let state = socket.state(); 7974ad52e57S裕依2439 if state != tcp::State::SynSent && state != tcp::State::SynReceived { 7984ad52e57S裕依2439 // socket有可读数据 7994ad52e57S裕依2439 if socket.can_recv() { 8004ad52e57S裕依2439 events.insert(EPollEventType::EPOLLIN | EPollEventType::EPOLLRDNORM); 8014ad52e57S裕依2439 } 8024ad52e57S裕依2439 8034ad52e57S裕依2439 if !(shutdown.contains(ShutdownType::SEND_SHUTDOWN)) { 8044ad52e57S裕依2439 // 缓冲区可写 8054ad52e57S裕依2439 if socket.send_queue() < socket.send_capacity() { 8064ad52e57S裕依2439 events.insert(EPollEventType::EPOLLOUT | EPollEventType::EPOLLWRNORM); 8074ad52e57S裕依2439 } else { 8084ad52e57S裕依2439 // TODO:触发缓冲区已满的信号 8094ad52e57S裕依2439 todo!("A signal that the buffer is full needs to be sent"); 8104ad52e57S裕依2439 } 8114ad52e57S裕依2439 } else { 8124ad52e57S裕依2439 // 如果我们的socket关闭了SEND_SHUTDOWN,epoll事件就是EPOLLOUT 8134ad52e57S裕依2439 events.insert(EPollEventType::EPOLLOUT | EPollEventType::EPOLLWRNORM); 8144ad52e57S裕依2439 } 8154ad52e57S裕依2439 } else if state == tcp::State::SynSent { 8164ad52e57S裕依2439 events.insert(EPollEventType::EPOLLOUT | EPollEventType::EPOLLWRNORM); 8174ad52e57S裕依2439 } 8184ad52e57S裕依2439 8194ad52e57S裕依2439 // socket发生错误 8204ad52e57S裕依2439 if !socket.is_active() { 8214ad52e57S裕依2439 events.insert(EPollEventType::EPOLLERR); 8224ad52e57S裕依2439 } 8234ad52e57S裕依2439 8244ad52e57S裕依2439 events 8254ad52e57S裕依2439 } 8264ad52e57S裕依2439 8274ad52e57S裕依2439 pub fn udp_poll(socket: &udp::Socket, shutdown: ShutdownType) -> EPollEventType { 8284ad52e57S裕依2439 let mut event = EPollEventType::empty(); 8294ad52e57S裕依2439 8304ad52e57S裕依2439 if shutdown.contains(ShutdownType::RCV_SHUTDOWN) { 8314ad52e57S裕依2439 event.insert( 8324ad52e57S裕依2439 EPollEventType::EPOLLRDHUP | EPollEventType::EPOLLIN | EPollEventType::EPOLLRDNORM, 8334ad52e57S裕依2439 ); 8344ad52e57S裕依2439 } 8354ad52e57S裕依2439 if shutdown.contains(ShutdownType::SHUTDOWN_MASK) { 8364ad52e57S裕依2439 event.insert(EPollEventType::EPOLLHUP); 8374ad52e57S裕依2439 } 8384ad52e57S裕依2439 8394ad52e57S裕依2439 if socket.can_recv() { 8404ad52e57S裕依2439 event.insert(EPollEventType::EPOLLIN | EPollEventType::EPOLLRDNORM); 8414ad52e57S裕依2439 } 8424ad52e57S裕依2439 8434ad52e57S裕依2439 if socket.can_send() { 8444ad52e57S裕依2439 event.insert( 8454ad52e57S裕依2439 EPollEventType::EPOLLOUT 8464ad52e57S裕依2439 | EPollEventType::EPOLLWRNORM 8474ad52e57S裕依2439 | EPollEventType::EPOLLWRBAND, 8484ad52e57S裕依2439 ); 8494ad52e57S裕依2439 } else { 8504ad52e57S裕依2439 // TODO: 缓冲区空间不够,需要使用信号处理 8514ad52e57S裕依2439 todo!() 8524ad52e57S裕依2439 } 8534ad52e57S裕依2439 8544ad52e57S裕依2439 return event; 8554ad52e57S裕依2439 } 8564ad52e57S裕依2439 } 857