use crate::{ arch::mm::LockedFrameAllocator, filesystem::vfs::syscall::ModeType, libs::{ align::page_align_up, spinlock::{SpinLock, SpinLockGuard}, }, mm::{ allocator::page_frame::{FrameAllocator, PageFrameCount, PhysPageFrame}, page::{page_manager_lock_irqsave, Page}, PhysAddr, }, process::{Pid, ProcessManager}, syscall::user_access::{UserBufferReader, UserBufferWriter}, time::PosixTimeSpec, }; use alloc::vec::Vec; use core::sync::atomic::{compiler_fence, Ordering}; use hashbrown::{HashMap, HashSet}; use ida::IdAllocator; use log::info; use num::ToPrimitive; use system_error::SystemError; pub static mut SHM_MANAGER: Option> = None; /// 用于创建新的私有IPC对象 pub const IPC_PRIVATE: ShmKey = ShmKey::new(0); /// 初始化SHM_MANAGER pub fn shm_manager_init() { info!("shm_manager_init"); let shm_manager = SpinLock::new(ShmManager::new()); compiler_fence(Ordering::SeqCst); unsafe { SHM_MANAGER = Some(shm_manager) }; compiler_fence(Ordering::SeqCst); info!("shm_manager_init done"); } pub fn shm_manager_lock() -> SpinLockGuard<'static, ShmManager> { unsafe { SHM_MANAGER.as_ref().unwrap().lock() } } int_like!(ShmId, usize); int_like!(ShmKey, usize); bitflags! { pub struct ShmFlags:u32{ const SHM_RDONLY = 0o10000; const SHM_RND = 0o20000; const SHM_REMAP = 0o40000; const SHM_EXEC = 0o100000; const SHM_HUGETLB = 0o4000; const IPC_CREAT = 0o1000; const IPC_EXCL = 0o2000; const SHM_DEST = 0o1000; const SHM_LOCKED = 0o2000; } } /// 管理共享内存段信息的操作码 #[derive(Eq, Clone, Copy)] pub enum ShmCtlCmd { /// 删除共享内存段 IpcRmid = 0, /// 设置KernIpcPerm选项 IpcSet = 1, /// 获取ShmIdDs IpcStat = 2, /// 查看ShmMetaData IpcInfo = 3, /// 不允许共享内存段被置换出物理内存 ShmLock = 11, /// 允许共享内存段被置换出物理内存 ShmUnlock = 12, /// 查看ShmMetaData ShmStat = 13, /// 查看ShmInfo ShmInfo = 14, /// 查看ShmMetaData ShmtStatAny = 15, Default, } impl From for ShmCtlCmd { fn from(cmd: usize) -> ShmCtlCmd { match cmd { 0 => Self::IpcRmid, 1 => Self::IpcSet, 2 => Self::IpcStat, 3 => Self::IpcInfo, 11 => Self::ShmLock, 12 => Self::ShmUnlock, 13 => Self::ShmStat, 14 => Self::ShmInfo, 15 => Self::ShmtStatAny, _ => Self::Default, } } } impl PartialEq for ShmCtlCmd { fn eq(&self, other: &ShmCtlCmd) -> bool { *self as usize == *other as usize } } /// 共享内存管理器 #[derive(Debug)] pub struct ShmManager { /// ShmId分配器 id_allocator: IdAllocator, /// ShmId映射共享内存信息表 id2shm: HashMap, /// ShmKey映射ShmId表 key2id: HashMap, } impl ShmManager { pub fn new() -> Self { ShmManager { id_allocator: IdAllocator::new(0, usize::MAX - 1), id2shm: HashMap::new(), key2id: HashMap::new(), } } /// # 添加共享内存段 /// /// ## 参数 /// /// - `key`: 共享内存键值 /// - `size`: 共享内存大小 /// - `shmflg`: 共享内存标志 /// /// ## 返回值 /// /// 成功:共享内存id /// 失败:对应错误码 pub fn add( &mut self, key: ShmKey, size: usize, shmflg: ShmFlags, ) -> Result { // 判断共享内存大小是否过小或溢出 if !(PosixShmMetaInfo::SHMMIN..=PosixShmMetaInfo::SHMMAX).contains(&size) { return Err(SystemError::EINVAL); } let id = self.id_allocator.alloc().expect("No more id to allocate."); let shm_id = ShmId::new(id); // 分配共享内存页面 let page_count = PageFrameCount::from_bytes(page_align_up(size)).unwrap(); let phys_page = unsafe { LockedFrameAllocator.allocate(page_count) }.ok_or(SystemError::EINVAL)?; // 创建共享内存page,并添加到PAGE_MANAGER中 let mut page_manager_guard = page_manager_lock_irqsave(); let mut cur_phys = PhysPageFrame::new(phys_page.0); for _ in 0..page_count.data() { let mut page = Page::new(true); page.set_shm_id(shm_id); let paddr = cur_phys.phys_address(); page_manager_guard.insert(paddr, page); cur_phys = cur_phys.next(); } // 创建共享内存信息结构体 let paddr = phys_page.0; let kern_ipc_perm = KernIpcPerm { id: shm_id, key, uid: 0, gid: 0, _cuid: 0, _cgid: 0, mode: shmflg & ShmFlags::from_bits_truncate(ModeType::S_IRWXUGO.bits()), _seq: 0, }; let shm_kernel = KernelShm::new(kern_ipc_perm, paddr, size); // 将key、id及其对应KernelShm添加到表中 self.id2shm.insert(shm_id, shm_kernel); self.key2id.insert(key, shm_id); return Ok(shm_id.data()); } pub fn contains_key(&self, key: &ShmKey) -> Option<&ShmId> { self.key2id.get(key) } pub fn get_mut(&mut self, id: &ShmId) -> Option<&mut KernelShm> { self.id2shm.get_mut(id) } pub fn free_key(&mut self, key: &ShmKey) { self.key2id.remove(key); } pub fn free_id(&mut self, id: &ShmId) { self.id2shm.remove(id); self.id_allocator.free(id.0); } pub fn ipc_info(&self, user_buf: *const u8, from_user: bool) -> Result { let mut user_buffer_writer = UserBufferWriter::new( user_buf as *mut u8, core::mem::size_of::(), from_user, )?; let shm_meta_info = PosixShmMetaInfo::new(); user_buffer_writer.copy_one_to_user(&shm_meta_info, 0)?; return Ok(0); } pub fn shm_info(&self, user_buf: *const u8, from_user: bool) -> Result { // 已使用id数量 let used_ids = self.id2shm.len().to_i32().unwrap(); // 共享内存总和 let shm_tot = self.id2shm.iter().fold(0, |acc, (_, kernel_shm)| { acc + PageFrameCount::from_bytes(page_align_up(kernel_shm.shm_size)) .unwrap() .data() }); let shm_info = PosixShmInfo::new(used_ids, shm_tot, 0, 0, 0, 0); let mut user_buffer_writer = UserBufferWriter::new( user_buf as *mut u8, core::mem::size_of::(), from_user, )?; user_buffer_writer.copy_one_to_user(&shm_info, 0)?; return Ok(0); } pub fn shm_stat( &self, id: ShmId, cmd: ShmCtlCmd, user_buf: *const u8, from_user: bool, ) -> Result { let kernel_shm = self.id2shm.get(&id).ok_or(SystemError::EINVAL)?; let key = kernel_shm.kern_ipc_perm.key.data().to_i32().unwrap(); let mode = kernel_shm.kern_ipc_perm.mode.bits(); let shm_perm = PosixIpcPerm::new(key, 0, 0, 0, 0, mode); let shm_segsz = kernel_shm.shm_size; let shm_atime = kernel_shm.shm_atim.total_nanos(); let shm_dtime = kernel_shm.shm_dtim.total_nanos(); let shm_ctime = kernel_shm.shm_ctim.total_nanos(); let shm_cpid = kernel_shm.shm_cprid.data().to_u32().unwrap(); let shm_lpid = kernel_shm.shm_lprid.data().to_u32().unwrap(); let shm_map_count = kernel_shm.map_count(); let shm_id_ds = PosixShmIdDs { shm_perm, shm_segsz, shm_atime, shm_dtime, shm_ctime, shm_cpid, shm_lpid, shm_map_count, _unused1: 0, _unused2: 0, }; let mut user_buffer_writer = UserBufferWriter::new( user_buf as *mut u8, core::mem::size_of::(), from_user, )?; user_buffer_writer.copy_one_to_user(&shm_id_ds, 0)?; let r: usize = if cmd == ShmCtlCmd::IpcStat { 0 } else { id.data() }; return Ok(r); } pub fn ipc_set( &mut self, id: ShmId, user_buf: *const u8, from_user: bool, ) -> Result { let kernel_shm = self.id2shm.get_mut(&id).ok_or(SystemError::EINVAL)?; let user_buffer_reader = UserBufferReader::new(user_buf, core::mem::size_of::(), from_user)?; let mut shm_id_ds = PosixShmIdDs::default(); user_buffer_reader.copy_one_from_user(&mut shm_id_ds, 0)?; kernel_shm.copy_from(shm_id_ds); return Ok(0); } pub fn ipc_rmid(&mut self, id: ShmId) -> Result { let kernel_shm = self.id2shm.get_mut(&id).ok_or(SystemError::EINVAL)?; kernel_shm.set_mode(ShmFlags::SHM_DEST, true); let mut cur_phys = PhysPageFrame::new(kernel_shm.shm_start_paddr); let count = PageFrameCount::from_bytes(page_align_up(kernel_shm.shm_size)).unwrap(); let key = kernel_shm.kern_ipc_perm.key; let id = kernel_shm.kern_ipc_perm.id; let map_count = kernel_shm.map_count(); let mut page_manager_guard = page_manager_lock_irqsave(); if map_count > 0 { // 设置共享内存物理页当映射计数等于0时可被回收 for _ in 0..count.data() { let page = page_manager_guard.get_mut(&cur_phys.phys_address()); page.set_dealloc_when_zero(true); cur_phys = cur_phys.next(); } // 释放key,不让后续进程连接 self.free_key(&key); } else { // 释放共享内存物理页 for _ in 0..count.data() { let paddr = cur_phys.phys_address(); unsafe { LockedFrameAllocator.free(paddr, PageFrameCount::new(1)); } // 将已回收的物理页面对应的Page从PAGE_MANAGER中删去 page_manager_guard.remove_page(&paddr); cur_phys = cur_phys.next(); } // 释放key和id self.free_id(&id); self.free_key(&key) } return Ok(0); } pub fn shm_lock(&mut self, id: ShmId) -> Result { let kernel_shm = self.id2shm.get_mut(&id).ok_or(SystemError::EINVAL)?; kernel_shm.set_mode(ShmFlags::SHM_LOCKED, true); return Ok(0); } pub fn shm_unlock(&mut self, id: ShmId) -> Result { let kernel_shm = self.id2shm.get_mut(&id).ok_or(SystemError::EINVAL)?; kernel_shm.set_mode(ShmFlags::SHM_LOCKED, false); return Ok(0); } } /// 共享内存信息 #[derive(Debug)] pub struct KernelShm { /// 权限信息 kern_ipc_perm: KernIpcPerm, /// 共享内存起始物理地址 shm_start_paddr: PhysAddr, /// 共享内存大小(bytes),注意是用户指定的大小(未经过页面对齐) shm_size: usize, /// 最后一次连接的时间 shm_atim: PosixTimeSpec, /// 最后一次断开连接的时间 shm_dtim: PosixTimeSpec, /// 最后一次更改信息的时间 shm_ctim: PosixTimeSpec, /// 创建者进程id shm_cprid: Pid, /// 最后操作者进程id shm_lprid: Pid, } impl KernelShm { pub fn new(kern_ipc_perm: KernIpcPerm, shm_start_paddr: PhysAddr, shm_size: usize) -> Self { let shm_cprid = ProcessManager::current_pid(); KernelShm { kern_ipc_perm, shm_start_paddr, shm_size, shm_atim: PosixTimeSpec::new(0, 0), shm_dtim: PosixTimeSpec::new(0, 0), shm_ctim: PosixTimeSpec::now(), shm_cprid, shm_lprid: shm_cprid, } } pub fn start_paddr(&self) -> PhysAddr { self.shm_start_paddr } pub fn size(&self) -> usize { self.shm_size } /// 更新最后连接时间 pub fn update_atim(&mut self) { // 更新最后一次连接时间 self.shm_atim = PosixTimeSpec::now(); // 更新最后操作当前共享内存的进程ID self.shm_lprid = ProcessManager::current_pid(); } /// 更新最后断开连接时间 pub fn update_dtim(&mut self) { // 更新最后一次断开连接时间 self.shm_dtim = PosixTimeSpec::now(); // 更新最后操作当前共享内存的进程ID self.shm_lprid = ProcessManager::current_pid(); } /// 更新最后一次修改信息的时间 pub fn update_ctim(&mut self) { // 更新最后一次修改信息的时间 self.shm_ctim = PosixTimeSpec::now(); } /// 共享内存段的映射计数(有多少个不同的VMA映射) pub fn map_count(&self) -> usize { let page_manager_guard = page_manager_lock_irqsave(); let mut id_set: HashSet = HashSet::new(); let mut cur_phys = PhysPageFrame::new(self.shm_start_paddr); let page_count = PageFrameCount::from_bytes(page_align_up(self.shm_size)).unwrap(); for _ in 0..page_count.data() { let page = page_manager_guard.get(&cur_phys.phys_address()).unwrap(); id_set.extend( page.anon_vma() .iter() .map(|vma| vma.id()) .collect::>(), ); cur_phys = cur_phys.next(); } // 由于LockedVMA的id是独一无二的,因此有多少个不同的id,就代表着有多少个不同的VMA映射到共享内存段 return id_set.len(); } pub fn copy_from(&mut self, shm_id_ds: PosixShmIdDs) { self.kern_ipc_perm.uid = shm_id_ds.uid() as usize; self.kern_ipc_perm.gid = shm_id_ds.gid() as usize; self.kern_ipc_perm.mode = ShmFlags::from_bits_truncate(shm_id_ds.mode()); self.update_ctim(); } pub fn set_mode(&mut self, shmflg: ShmFlags, set: bool) { if set { self.kern_ipc_perm.mode.insert(shmflg); } else { self.kern_ipc_perm.mode.remove(shmflg); } self.update_ctim(); } } /// 共享内存权限信息 #[derive(Debug)] pub struct KernIpcPerm { /// 共享内存id id: ShmId, /// 共享内存键值,由创建共享内存用户指定 key: ShmKey, /// 共享内存拥有者用户id uid: usize, /// 共享内存拥有者所在组id gid: usize, /// 共享内存创建者用户id _cuid: usize, /// 共享内存创建者所在组id _cgid: usize, /// 共享内存区权限模式 mode: ShmFlags, _seq: usize, } /// 共享内存元信息,符合POSIX标准 #[repr(C)] #[derive(Debug, Clone, Copy)] pub struct PosixShmMetaInfo { /// 最大共享内存段的大小(bytes) shmmax: usize, /// 最小共享内存段的大小(bytes) shmmin: usize, /// 最大共享内存标识符数量 shmmni: usize, /// 单个进程可以拥有的最大共享内存段的数量,和最大共享内存标识符数量相同 shmseg: usize, /// 所有共享内存段总共可以使用的最大内存量(pages) shmall: usize, _unused1: usize, _unused2: usize, _unused3: usize, _unused4: usize, } impl PosixShmMetaInfo { /// 最小共享内存段的大小(bytes) pub const SHMMIN: usize = 1; /// 最大共享内存标识符数量 pub const SHMMNI: usize = 4096; /// 最大共享内存段的大小(bytes) pub const SHMMAX: usize = usize::MAX - (1 << 24); /// 所有共享内存段总共可以使用的最大内存量(pages) pub const SHMALL: usize = usize::MAX - (1 << 24); /// 单个进程可以拥有的最大共享内存段的数量,和最大共享内存标识符数量相同 pub const SHMSEG: usize = 4096; pub fn new() -> Self { PosixShmMetaInfo { shmmax: Self::SHMMAX, shmmin: Self::SHMMIN, shmmni: Self::SHMMNI, shmseg: Self::SHMSEG, shmall: Self::SHMALL, _unused1: 0, _unused2: 0, _unused3: 0, _unused4: 0, } } } /// 共享内存信息,符合POSIX标准 #[repr(C)] #[derive(Clone, Copy)] pub struct PosixShmInfo { /// 已使用id数 used_ids: i32, /// 共享内存总量(pages) shm_tot: usize, /// 保留在内存中的共享内存大小 shm_rss: usize, /// 被置换出的共享内存大小 shm_swp: usize, /// 尝试置换次数 swap_attempts: usize, /// 成功置换次数 swap_successes: usize, } impl PosixShmInfo { pub fn new( used_ids: i32, shm_tot: usize, shm_rss: usize, shm_swp: usize, swap_attempts: usize, swap_successes: usize, ) -> Self { PosixShmInfo { used_ids, shm_tot, shm_rss, shm_swp, swap_attempts, swap_successes, } } } /// 共享内存段属性信息,符合POSIX标准 #[repr(C)] #[derive(Debug, Clone, Copy, Default)] pub struct PosixShmIdDs { /// 共享内存段权限 shm_perm: PosixIpcPerm, /// 共享内存大小(bytes) shm_segsz: usize, /// 最后一次连接的时间 shm_atime: i64, /// 最后一次断开连接的时间 shm_dtime: i64, /// 最后一次更改信息的时间 shm_ctime: i64, /// 创建者进程id shm_cpid: u32, /// 最后操作者进程id shm_lpid: u32, /// 链接数 shm_map_count: usize, _unused1: usize, _unused2: usize, } impl PosixShmIdDs { pub fn uid(&self) -> u32 { self.shm_perm.uid } pub fn gid(&self) -> u32 { self.shm_perm.gid } pub fn mode(&self) -> u32 { self.shm_perm.mode } } /// 共享内存段权限,符合POSIX标准 #[repr(C)] #[derive(Debug, Clone, Copy, Default)] pub struct PosixIpcPerm { /// IPC对象键值 key: i32, /// 当前用户id uid: u32, /// 当前用户组id gid: u32, /// 创建者用户id cuid: u32, /// 创建者组id cgid: u32, /// 权限 mode: u32, /// 序列号 seq: i32, _pad1: i32, _unused1: usize, _unused2: usize, } impl PosixIpcPerm { pub fn new(key: i32, uid: u32, gid: u32, cuid: u32, cgid: u32, mode: u32) -> Self { PosixIpcPerm { key, uid, gid, cuid, cgid, mode, seq: 0, _pad1: 0, _unused1: 0, _unused2: 0, } } }