use core::{ ffi::{c_char, c_int, c_void, CStr}, sync::atomic::{AtomicBool, Ordering}, }; use num_traits::{FromPrimitive, ToPrimitive}; use crate::{ arch::{cpu::cpu_reset, MMArch}, filesystem::vfs::io::SeekFrom, filesystem::vfs::{ fcntl::FcntlCommand, file::FileMode, syscall::{PosixKstat, SEEK_CUR, SEEK_END, SEEK_MAX, SEEK_SET}, MAX_PATHLEN, }, include::bindings::bindings::{pid_t, PAGE_2M_SIZE, PAGE_4K_SIZE}, kinfo, libs::align::page_align_up, mm::{verify_area, MemoryManagementArch, VirtAddr}, net::syscall::SockAddr, time::{ syscall::{PosixTimeZone, PosixTimeval}, TimeSpec, }, }; use self::user_access::UserBufferWriter; pub mod user_access; #[repr(i32)] #[derive(Debug, FromPrimitive, ToPrimitive, PartialEq, Eq, Clone)] #[allow(dead_code, non_camel_case_types)] pub enum SystemError { EPERM = 1, /// 没有指定的文件或目录 No such file or directory. ENOENT = 2, /// 没有这样的进程 No such process. ESRCH = 3, /// 被中断的函数 Interrupted function. EINTR = 4, /// I/O错误 I/O error. EIO = 5, /// 没有这样的设备或地址 No such device or address. ENXIO = 6, /// 参数列表过长,或者在输出buffer中缺少空间 或者参数比系统内建的最大值要大 Argument list too long. E2BIG = 7, /// 可执行文件格式错误 Executable file format error ENOEXEC = 8, /// 错误的文件描述符 Bad file descriptor. EBADF = 9, /// 没有子进程 No child processes. ECHILD = 10, /// 资源不可用,请重试。 Resource unavailable, try again.(may be the same value as [EWOULDBLOCK]) /// /// 操作将被禁止 Operation would block.(may be the same value as [EAGAIN]). EAGAIN_OR_EWOULDBLOCK = 11, /// 没有足够的空间 Not enough space. ENOMEM = 12, /// 访问被拒绝 Permission denied EACCES = 13, /// 错误的地址 Bad address EFAULT = 14, /// 需要块设备 Block device required ENOTBLK = 15, /// 设备或资源忙 Device or resource busy. EBUSY = 16, /// 文件已存在 File exists. EEXIST = 17, /// 跨设备连接 Cross-device link. EXDEV = 18, /// 没有指定的设备 No such device. ENODEV = 19, /// 不是目录 Not a directory. ENOTDIR = 20, /// 是一个目录 Is a directory EISDIR = 21, /// 不可用的参数 Invalid argument. EINVAL = 22, /// 系统中打开的文件过多 Too many files open in system. ENFILE = 23, /// 文件描述符的值过大 File descriptor value too large. EMFILE = 24, /// 不正确的I/O控制操作 Inappropriate I/O control operation. ENOTTY = 25, /// 文本文件忙 Text file busy. ETXTBSY = 26, /// 文件太大 File too large. EFBIG = 27, /// 设备上没有空间 No space left on device. ENOSPC = 28, /// 错误的寻道.当前文件是pipe,不允许seek请求 Invalid seek. ESPIPE = 29, /// 只读的文件系统 Read-only file system. EROFS = 30, /// 链接数过多 Too many links. EMLINK = 31, /// 断开的管道 Broken pipe. EPIPE = 32, /// 数学参数超出作用域 Mathematics argument out of domain of function. EDOM = 33, /// 结果过大 Result too large. ERANGE = 34, /// 资源死锁将要发生 Resource deadlock would occur. EDEADLK = 35, /// 文件名过长 Filename too long. ENAMETOOLONG = 36, /// 没有可用的锁 No locks available. ENOLCK = 37, /// 功能不支持 Function not supported. ENOSYS = 38, /// 目录非空 Directory not empty. ENOTEMPTY = 39, /// 符号链接级别过多 Too many levels of symbolic links. ELOOP = 40, /// 没有期待类型的消息 No message of the desired type. ENOMSG = 41, /// 标志符被移除 Identifier removed. EIDRM = 42, /// 通道号超出范围 Channel number out of range ECHRNG = 43, /// 二级不同步 Level 2 not synchronized EL2NSYNC = 44, /// 三级暂停 Level 3 halted EL3HLT = 45, /// 三级重置 Level 3 reset EL3RST = 46, /// 链接号超出范围 Link number out of range ELNRNG = 47, /// 未连接协议驱动程序 Protocol driver not attached EUNATCH = 48, /// 没有可用的CSI结构 No CSI structure available ENOCSI = 49, /// 二级暂停 Level 2 halted EL2HLT = 50, /// 无效交换 Invalid exchange EBADE = 51, /// 无效的请求描述符 Invalid request descriptor EBADR = 52, /// 交换满 Exchange full EXFULL = 53, /// 无阳极 No anode ENOANO = 54, /// 请求码无效 Invalid request code EBADRQC = 55, /// 无效插槽 Invalid slot EBADSLT = 56, /// 资源死锁 Resource deadlock would occur EDEADLOCK = 57, /// 错误的字体文件格式 Bad font file format EBFONT = 58, /// 不是STREAM Not a STREAM ENOSTR = 59, /// 队列头没有可读取的消息 No message is available on the STREAM head read queue. ENODATA = 60, /// 流式ioctl()超时 Stream ioctl() timeout ETIME = 61, /// 没有STREAM资源 No STREAM resources. ENOSR = 62, /// 机器不在网络上 Machine is not on the network ENONET = 63, /// 未安装软件包 Package not installed ENOPKG = 64, /// 远程对象 Object is remote EREMOTE = 65, /// 保留 Reserved. ENOLINK = 66, /// 外设错误 Advertise error. EADV = 67, /// 安装错误 Srmount error ESRMNT = 68, /// 发送时发生通信错误 Communication error on send ECOMM = 69, /// 协议错误 Protocol error. EPROTO = 70, /// 保留使用 Reserved. EMULTIHOP = 71, /// RFS特定错误 RFS specific error EDOTDOT = 72, /// 错误的消息 Bad message. EBADMSG = 73, /// 数值过大,产生溢出 Value too large to be stored in data type. EOVERFLOW = 74, /// 名称在网络上不是唯一的 Name not unique on network ENOTUNIQ = 75, /// 处于不良状态的文件描述符 File descriptor in bad state EBADFD = 76, /// 远程地址已更改 Remote address changed EREMCHG = 77, /// 无法访问所需的共享库 Can not access a needed shared library ELIBACC = 78, /// 访问损坏的共享库 Accessing a corrupted shared library ELIBBAD = 79, /// a. out中的.lib部分已损坏 .lib section in a.out corrupted ELIBSCN = 80, /// 尝试链接太多共享库 Attempting to link in too many shared libraries ELIBMAX = 81, /// 无法直接执行共享库 Cannot exec a shared library directly ELIBEXEC = 82, /// 不合法的字符序列 Illegal byte sequence. EILSEQ = 83, /// 中断的系统调用应该重新启动 Interrupted system call should be restarted ERESTART = 84, /// 流管道错误 Streams pipe error ESTRPIPE = 85, /// 用户太多 Too many users EUSERS = 86, /// 不是一个套接字 Not a socket. ENOTSOCK = 87, /// 需要目标地址 Destination address required. EDESTADDRREQ = 88, /// 消息过大 Message too large. EMSGSIZE = 89, /// 对于套接字而言,错误的协议 Protocol wrong type for socket. EPROTOTYPE = 90, /// 协议不可用 Protocol not available. ENOPROTOOPT = 91, /// 协议不被支持 Protocol not supported. EPROTONOSUPPORT = 92, /// 不支持套接字类型 Socket type not supported ESOCKTNOSUPPORT = 93, /// 套接字不支持该操作 Operation not supported on socket (may be the same value as [ENOTSUP]). /// /// 不被支持 Not supported (may be the same value as [EOPNOTSUPP]). EOPNOTSUPP_OR_ENOTSUP = 94, /// 不支持协议系列 Protocol family not supported EPFNOSUPPORT = 95, /// 地址family不支持 Address family not supported. EAFNOSUPPORT = 96, /// 地址正在被使用 Address in use. EADDRINUSE = 97, /// 地址不可用 Address not available. EADDRNOTAVAIL = 98, /// 网络已关闭 Network is down. ENETDOWN = 99, /// 网络不可达 Network unreachable. ENETUNREACH = 100, /// 网络连接已断开 Connection aborted by network. ENETRESET = 101, /// 连接已断开 Connection aborted. ECONNABORTED = 102, /// 连接被重置 Connection reset. ECONNRESET = 103, /// 缓冲区空间不足 No buffer space available. ENOBUFS = 104, /// 套接字已连接 Socket is connected. EISCONN = 105, /// 套接字未连接 The socket is not connected. ENOTCONN = 106, /// 传输端点关闭后无法发送 Cannot send after transport endpoint shutdown ESHUTDOWN = 107, /// 引用太多:无法拼接 Too many references: cannot splice ETOOMANYREFS = 108, /// 连接超时 Connection timed out. ETIMEDOUT = 109, /// 连接被拒绝 Connection refused. ECONNREFUSED = 110, /// 主机已关闭 Host is down EHOSTDOWN = 111, /// 主机不可达 Host is unreachable. EHOSTUNREACH = 112, /// 连接已经在处理 Connection already in progress. EALREADY = 113, /// 操作正在处理 Operation in progress. EINPROGRESS = 114, /// 保留 Reserved. ESTALE = 115, /// 结构需要清理 Structure needs cleaning EUCLEAN = 116, /// 不是XENIX命名类型文件 Not a XENIX named type file ENOTNAM = 117, /// 没有可用的XENIX信号量 No XENIX semaphores available ENAVAIL = 118, /// 是命名类型文件 Is a named type file EISNAM = 119, /// 远程I/O错误 Remote I/O error EREMOTEIO = 120, /// 保留使用 Reserved EDQUOT = 121, /// 没有找到媒介 No medium found ENOMEDIUM = 122, /// 介质类型错误 Wrong medium type EMEDIUMTYPE = 123, /// 操作被取消 Operation canceled. ECANCELED = 124, /// 所需的密钥不可用 Required key not available ENOKEY = 125, /// 密钥已过期 Key has expired EKEYEXPIRED = 126, /// 密钥已被撤销 Key has been revoked EKEYREVOKED = 127, /// 密钥被服务拒绝 Key has been revoked EKEYREJECTED = 128, /// 之前的拥有者挂了 Previous owner died. EOWNERDEAD = 129, /// 状态不可恢复 State not recoverable. ENOTRECOVERABLE = 130, } impl SystemError { /// @brief 把posix错误码转换为系统错误枚举类型。 pub fn from_posix_errno(errno: i32) -> Option { // posix 错误码是小于0的 if errno >= 0 { return None; } return ::from_i32(-errno); } /// @brief 把系统错误枚举类型转换为负数posix错误码。 pub fn to_posix_errno(&self) -> i32 { return -::to_i32(self).unwrap(); } } // 定义系统调用号 pub const SYS_PUT_STRING: usize = 1; pub const SYS_OPEN: usize = 2; pub const SYS_CLOSE: usize = 3; pub const SYS_READ: usize = 4; pub const SYS_WRITE: usize = 5; pub const SYS_LSEEK: usize = 6; pub const SYS_FORK: usize = 7; pub const SYS_VFORK: usize = 8; pub const SYS_BRK: usize = 9; pub const SYS_SBRK: usize = 10; pub const SYS_REBOOT: usize = 11; pub const SYS_CHDIR: usize = 12; pub const SYS_GET_DENTS: usize = 13; pub const SYS_EXECVE: usize = 14; pub const SYS_WAIT4: usize = 15; pub const SYS_EXIT: usize = 16; pub const SYS_MKDIR: usize = 17; pub const SYS_NANOSLEEP: usize = 18; /// todo: 该系统调用与Linux不一致,将来需要删除该系统调用!!! 删的时候记得改C版本的libc pub const SYS_CLOCK: usize = 19; pub const SYS_PIPE: usize = 20; /// 系统调用21曾经是SYS_MSTAT,但是现在已经废弃 pub const __NOT_USED: usize = 21; pub const SYS_UNLINK_AT: usize = 22; pub const SYS_KILL: usize = 23; pub const SYS_SIGACTION: usize = 24; pub const SYS_RT_SIGRETURN: usize = 25; pub const SYS_GETPID: usize = 26; pub const SYS_SCHED: usize = 27; pub const SYS_DUP: usize = 28; pub const SYS_DUP2: usize = 29; pub const SYS_SOCKET: usize = 30; pub const SYS_SETSOCKOPT: usize = 31; pub const SYS_GETSOCKOPT: usize = 32; pub const SYS_CONNECT: usize = 33; pub const SYS_BIND: usize = 34; pub const SYS_SENDTO: usize = 35; pub const SYS_RECVFROM: usize = 36; pub const SYS_RECVMSG: usize = 37; pub const SYS_LISTEN: usize = 38; pub const SYS_SHUTDOWN: usize = 39; pub const SYS_ACCEPT: usize = 40; pub const SYS_GETSOCKNAME: usize = 41; pub const SYS_GETPEERNAME: usize = 42; pub const SYS_GETTIMEOFDAY: usize = 43; pub const SYS_MMAP: usize = 44; pub const SYS_MUNMAP: usize = 45; pub const SYS_MPROTECT: usize = 46; pub const SYS_FSTAT: usize = 47; #[allow(dead_code)] pub const SYS_GETCWD: usize = 48; #[allow(dead_code)] pub const SYS_GETPPID: usize = 49; #[allow(dead_code)] pub const SYS_GETPGID: usize = 50; pub const SYS_FCNTL: usize = 51; pub const SYS_FTRUNCATE: usize = 52; #[derive(Debug)] pub struct Syscall; extern "C" { fn do_put_string(s: *const u8, front_color: u32, back_color: u32) -> usize; } #[no_mangle] pub extern "C" fn syscall_init() -> i32 { kinfo!("Initializing syscall..."); Syscall::init().expect("syscall init failed"); kinfo!("Syscall init successfully!"); return 0; } impl Syscall { /// 初始化系统调用 pub fn init() -> Result<(), SystemError> { static INIT_FLAG: AtomicBool = AtomicBool::new(false); let prev = INIT_FLAG.swap(true, Ordering::SeqCst); if prev { panic!("Cannot initialize syscall more than once!"); } return crate::arch::syscall::arch_syscall_init(); } /// @brief 系统调用分发器,用于分发系统调用。 /// /// 这个函数内,需要根据系统调用号,调用对应的系统调用处理函数。 /// 并且,对于用户态传入的指针参数,需要在本函数内进行越界检查,防止访问到内核空间。 pub fn handle(syscall_num: usize, args: &[usize], from_user: bool) -> usize { let r = match syscall_num { SYS_PUT_STRING => { Self::put_string(args[0] as *const u8, args[1] as u32, args[2] as u32) } SYS_OPEN => { let path: &CStr = unsafe { CStr::from_ptr(args[0] as *const c_char) }; let path: Result<&str, core::str::Utf8Error> = path.to_str(); let res = if path.is_err() { Err(SystemError::EINVAL) } else { let path: &str = path.unwrap(); let flags = args[1]; let open_flags: FileMode = FileMode::from_bits_truncate(flags as u32); Self::open(path, open_flags) }; res } SYS_CLOSE => { let fd = args[0]; Self::close(fd) } SYS_READ => { let fd = args[0] as i32; let buf_vaddr = args[1]; let len = args[2]; let virt_addr: VirtAddr = VirtAddr::new(buf_vaddr); // 判断缓冲区是否来自用户态,进行权限校验 let res = if from_user && verify_area(virt_addr, len as usize).is_err() { // 来自用户态,而buffer在内核态,这样的操作不被允许 Err(SystemError::EPERM) } else { let buf: &mut [u8] = unsafe { core::slice::from_raw_parts_mut::<'static, u8>(buf_vaddr as *mut u8, len) }; Self::read(fd, buf) }; // kdebug!("sys read, fd: {}, len: {}, res: {:?}", fd, len, res); res } SYS_WRITE => { let fd = args[0] as i32; let buf_vaddr = args[1]; let len = args[2]; let virt_addr = VirtAddr::new(buf_vaddr); // 判断缓冲区是否来自用户态,进行权限校验 let res = if from_user && verify_area(virt_addr, len as usize).is_err() { // 来自用户态,而buffer在内核态,这样的操作不被允许 Err(SystemError::EPERM) } else { let buf: &[u8] = unsafe { core::slice::from_raw_parts::<'static, u8>(buf_vaddr as *const u8, len) }; Self::write(fd, buf) }; // kdebug!("sys write, fd: {}, len: {}, res: {:?}", fd, len, res); res } SYS_LSEEK => { let fd = args[0] as i32; let offset = args[1] as i64; let whence = args[2] as u32; let w = match whence { SEEK_SET => Ok(SeekFrom::SeekSet(offset)), SEEK_CUR => Ok(SeekFrom::SeekCurrent(offset)), SEEK_END => Ok(SeekFrom::SeekEnd(offset)), SEEK_MAX => Ok(SeekFrom::SeekEnd(0)), _ => Err(SystemError::EINVAL), }; let res = if w.is_err() { Err(w.unwrap_err()) } else { let w = w.unwrap(); Self::lseek(fd, w) }; // kdebug!("sys lseek, fd: {}, offset: {}, whence: {}, res: {:?}", fd, offset, whence, res); res } SYS_BRK => { let new_brk = VirtAddr::new(args[0]); Self::brk(new_brk).map(|vaddr| vaddr.data()) } SYS_SBRK => { let increment = args[0] as isize; Self::sbrk(increment).map(|vaddr| vaddr.data()) } SYS_REBOOT => Self::reboot(), SYS_CHDIR => { // Closure for checking arguments let chdir_check = |arg0: usize| { if arg0 == 0 { return Err(SystemError::EFAULT); } let path_ptr = arg0 as *const c_char; let virt_addr = VirtAddr::new(path_ptr as usize); // 权限校验 if path_ptr.is_null() || (from_user && verify_area(virt_addr, PAGE_2M_SIZE as usize).is_err()) { return Err(SystemError::EINVAL); } let dest_path: &CStr = unsafe { CStr::from_ptr(path_ptr) }; let dest_path: &str = dest_path.to_str().map_err(|_| SystemError::EINVAL)?; if dest_path.len() == 0 { return Err(SystemError::EINVAL); } else if dest_path.len() > PAGE_4K_SIZE as usize { return Err(SystemError::ENAMETOOLONG); } return Ok(dest_path); }; let r: Result<&str, SystemError> = chdir_check(args[0]); if r.is_err() { Err(r.unwrap_err()) } else { Self::chdir(r.unwrap()) } } SYS_GET_DENTS => { let fd = args[0] as i32; let buf_vaddr = args[1]; let len = args[2]; let virt_addr: VirtAddr = VirtAddr::new(buf_vaddr); // 判断缓冲区是否来自用户态,进行权限校验 let res = if from_user && verify_area(virt_addr, len as usize).is_err() { // 来自用户态,而buffer在内核态,这样的操作不被允许 Err(SystemError::EPERM) } else if buf_vaddr == 0 { Err(SystemError::EFAULT) } else { let buf: &mut [u8] = unsafe { core::slice::from_raw_parts_mut::<'static, u8>(buf_vaddr as *mut u8, len) }; Self::getdents(fd, buf) }; res } SYS_EXECVE => { let path_ptr = args[0]; let argv_ptr = args[1]; let env_ptr = args[2]; let virt_path_ptr = VirtAddr::new(path_ptr); let virt_argv_ptr = VirtAddr::new(argv_ptr); let virt_env_ptr = VirtAddr::new(env_ptr); // 权限校验 if from_user && (verify_area(virt_path_ptr, PAGE_4K_SIZE as usize).is_err() || verify_area(virt_argv_ptr, PAGE_4K_SIZE as usize).is_err()) || verify_area(virt_env_ptr, PAGE_4K_SIZE as usize).is_err() { Err(SystemError::EFAULT) } else { Self::execve( path_ptr as *const c_void, argv_ptr as *const *const c_void, env_ptr as *const *const c_void, ) } } SYS_WAIT4 => { let pid = args[0] as pid_t; let wstatus = args[1] as *mut c_int; let options = args[2] as c_int; let rusage = args[3] as *mut c_void; let virt_wstatus = VirtAddr::new(wstatus as usize); let virt_rusage = VirtAddr::new(rusage as usize); // 权限校验 // todo: 引入rusage之后,更正以下权限校验代码中,rusage的大小 if from_user && (verify_area(virt_wstatus, core::mem::size_of::() as usize).is_err() || verify_area(virt_rusage, PAGE_4K_SIZE as usize).is_err()) { Err(SystemError::EFAULT) } else { Self::wait4(pid, wstatus, options, rusage) } } SYS_EXIT => { let exit_code = args[0]; Self::exit(exit_code) } SYS_MKDIR => { let path_ptr = args[0] as *const c_char; let mode = args[1]; let virt_path_ptr = VirtAddr::new(path_ptr as usize); let security_check = || { if path_ptr.is_null() || (from_user && verify_area(virt_path_ptr, PAGE_2M_SIZE as usize).is_err()) { return Err(SystemError::EINVAL); } let path: &CStr = unsafe { CStr::from_ptr(path_ptr) }; let path: &str = path.to_str().map_err(|_| SystemError::EINVAL)?.trim(); if path == "" { return Err(SystemError::EINVAL); } return Ok(path); }; let path = security_check(); if path.is_err() { Err(path.unwrap_err()) } else { Self::mkdir(path.unwrap(), mode) } } SYS_NANOSLEEP => { let req = args[0] as *const TimeSpec; let rem = args[1] as *mut TimeSpec; let virt_req = VirtAddr::new(req as usize); let virt_rem = VirtAddr::new(rem as usize); if from_user && (verify_area(virt_req, core::mem::size_of::() as usize).is_err() || verify_area(virt_rem, core::mem::size_of::() as usize) .is_err()) { Err(SystemError::EFAULT) } else { Self::nanosleep(req, rem) } } SYS_CLOCK => Self::clock(), SYS_PIPE => { let pipefd = args[0] as *mut c_int; match UserBufferWriter::new(pipefd, core::mem::size_of::<[c_int; 2]>(), from_user) { Err(e) => Err(e), Ok(mut user_buffer) => match user_buffer.buffer::(0) { Err(e) => Err(e), Ok(pipefd) => Self::pipe(pipefd), }, } } SYS_UNLINK_AT => { let dirfd = args[0] as i32; let pathname = args[1] as *const c_char; let flags = args[2] as u32; let virt_pathname = VirtAddr::new(pathname as usize); if from_user && verify_area(virt_pathname, PAGE_4K_SIZE as usize).is_err() { Err(SystemError::EFAULT) } else if pathname.is_null() { Err(SystemError::EFAULT) } else { let get_path = || { let pathname: &CStr = unsafe { CStr::from_ptr(pathname) }; let pathname: &str = pathname.to_str().map_err(|_| SystemError::EINVAL)?; if pathname.len() >= MAX_PATHLEN { return Err(SystemError::ENAMETOOLONG); } return Ok(pathname.trim()); }; let pathname = get_path(); if pathname.is_err() { Err(pathname.unwrap_err()) } else { // kdebug!("sys unlinkat: dirfd: {}, pathname: {}", dirfd, pathname.as_ref().unwrap()); Self::unlinkat(dirfd, pathname.unwrap(), flags) } } } SYS_KILL => { let pid = args[0] as pid_t; let sig = args[1] as c_int; Self::kill(pid, sig) } SYS_SIGACTION => { let sig = args[0] as c_int; let act = args[1]; let old_act = args[2]; Self::sigaction(sig, act, old_act, from_user) } SYS_RT_SIGRETURN => { // 由于目前signal机制的实现,与x86_64强关联,因此暂时在arch/x86_64/syscall.rs中调用 // todo: 未来需要将signal机制与平台解耦 todo!() } SYS_GETPID => Self::getpid(), SYS_SCHED => Self::sched(from_user), SYS_DUP => { let oldfd: i32 = args[0] as c_int; Self::dup(oldfd) } SYS_DUP2 => { let oldfd: i32 = args[0] as c_int; let newfd: i32 = args[1] as c_int; Self::dup2(oldfd, newfd) } SYS_SOCKET => Self::socket(args[0], args[1], args[2]), SYS_SETSOCKOPT => { let optval = args[3] as *const u8; let optlen = args[4] as usize; let virt_optval = VirtAddr::new(optval as usize); // 验证optval的地址是否合法 if verify_area(virt_optval, optlen as usize).is_err() { // 地址空间超出了用户空间的范围,不合法 Err(SystemError::EFAULT) } else { let data: &[u8] = unsafe { core::slice::from_raw_parts(optval, optlen) }; Self::setsockopt(args[0], args[1], args[2], data) } } SYS_GETSOCKOPT => { let optval = args[3] as *mut u8; let optlen = args[4] as *mut usize; let virt_optval = VirtAddr::new(optval as usize); let virt_optlen = VirtAddr::new(optlen as usize); let security_check = || { // 验证optval的地址是否合法 if verify_area(virt_optval, PAGE_4K_SIZE as usize).is_err() { // 地址空间超出了用户空间的范围,不合法 return Err(SystemError::EFAULT); } // 验证optlen的地址是否合法 if verify_area(virt_optlen, core::mem::size_of::() as usize).is_err() { // 地址空间超出了用户空间的范围,不合法 return Err(SystemError::EFAULT); } return Ok(()); }; let r = security_check(); if r.is_err() { Err(r.unwrap_err()) } else { Self::getsockopt(args[0], args[1], args[2], optval, optlen as *mut u32) } } SYS_CONNECT => { let addr = args[1] as *const SockAddr; let addrlen = args[2] as usize; let virt_addr = VirtAddr::new(addr as usize); // 验证addr的地址是否合法 if verify_area(virt_addr, addrlen as usize).is_err() { // 地址空间超出了用户空间的范围,不合法 Err(SystemError::EFAULT) } else { Self::connect(args[0], addr, addrlen) } } SYS_BIND => { let addr = args[1] as *const SockAddr; let addrlen = args[2] as usize; let virt_addr = VirtAddr::new(addr as usize); // 验证addr的地址是否合法 if verify_area(virt_addr, addrlen as usize).is_err() { // 地址空间超出了用户空间的范围,不合法 Err(SystemError::EFAULT) } else { Self::bind(args[0], addr, addrlen) } } SYS_SENDTO => { let buf = args[1] as *const u8; let len = args[2] as usize; let flags = args[3] as u32; let addr = args[4] as *const SockAddr; let addrlen = args[5] as usize; let virt_buf = VirtAddr::new(buf as usize); let virt_addr = VirtAddr::new(addr as usize); // 验证buf的地址是否合法 if verify_area(virt_buf, len as usize).is_err() { // 地址空间超出了用户空间的范围,不合法 Err(SystemError::EFAULT) } else if verify_area(virt_addr, addrlen as usize).is_err() { // 地址空间超出了用户空间的范围,不合法 Err(SystemError::EFAULT) } else { let data: &[u8] = unsafe { core::slice::from_raw_parts(buf, len) }; Self::sendto(args[0], data, flags, addr, addrlen) } } SYS_RECVFROM => { let buf = args[1] as *mut u8; let len = args[2] as usize; let flags = args[3] as u32; let addr = args[4] as *mut SockAddr; let addrlen = args[5] as *mut usize; let virt_buf = VirtAddr::new(buf as usize); let virt_addrlen = VirtAddr::new(addrlen as usize); let virt_addr = VirtAddr::new(addr as usize); let security_check = || { // 验证buf的地址是否合法 if verify_area(virt_buf, len as usize).is_err() { // 地址空间超出了用户空间的范围,不合法 return Err(SystemError::EFAULT); } // 验证addrlen的地址是否合法 if verify_area(virt_addrlen, core::mem::size_of::() as usize).is_err() { // 地址空间超出了用户空间的范围,不合法 return Err(SystemError::EFAULT); } if verify_area(virt_addr, core::mem::size_of::() as usize).is_err() { // 地址空间超出了用户空间的范围,不合法 return Err(SystemError::EFAULT); } return Ok(()); }; let r = security_check(); if r.is_err() { Err(r.unwrap_err()) } else { let buf = unsafe { core::slice::from_raw_parts_mut(buf, len) }; Self::recvfrom(args[0], buf, flags, addr, addrlen as *mut u32) } } SYS_RECVMSG => { let msg = args[1] as *mut crate::net::syscall::MsgHdr; let flags = args[2] as u32; match UserBufferWriter::new( msg, core::mem::size_of::(), true, ) { Err(e) => Err(e), Ok(mut user_buffer_writer) => { match user_buffer_writer.buffer::(0) { Err(e) => Err(e), Ok(buffer) => { let msg = &mut buffer[0]; Self::recvmsg(args[0], msg, flags) } } } } } SYS_LISTEN => Self::listen(args[0], args[1]), SYS_SHUTDOWN => Self::shutdown(args[0], args[1]), SYS_ACCEPT => Self::accept(args[0], args[1] as *mut SockAddr, args[2] as *mut u32), SYS_GETSOCKNAME => { Self::getsockname(args[0], args[1] as *mut SockAddr, args[2] as *mut u32) } SYS_GETPEERNAME => { Self::getpeername(args[0], args[1] as *mut SockAddr, args[2] as *mut u32) } SYS_GETTIMEOFDAY => { let timeval = args[0] as *mut PosixTimeval; let timezone_ptr = args[1] as *mut PosixTimeZone; Self::gettimeofday(timeval, timezone_ptr) } SYS_MMAP => { let len = page_align_up(args[1]); let virt_addr = VirtAddr::new(args[0] as usize); if verify_area(virt_addr, len as usize).is_err() { Err(SystemError::EFAULT) } else { Self::mmap( VirtAddr::new(args[0]), len, args[2], args[3], args[4] as i32, args[5], ) } } SYS_MUNMAP => { let addr = args[0]; let len = page_align_up(args[1]); if addr & MMArch::PAGE_SIZE != 0 { // The addr argument is not a multiple of the page size Err(SystemError::EINVAL) } else { Self::munmap(VirtAddr::new(addr), len) } } SYS_MPROTECT => { let addr = args[0]; let len = page_align_up(args[1]); if addr & MMArch::PAGE_SIZE != 0 { // The addr argument is not a multiple of the page size Err(SystemError::EINVAL) } else { Self::mprotect(VirtAddr::new(addr), len, args[2]) } } SYS_FSTAT => { let fd = args[0] as i32; let kstat = args[1] as *mut PosixKstat; let vaddr = VirtAddr::new(kstat as usize); // FIXME 由于c中的verify_area与rust中的verify_area重名,所以在引入时加了前缀区分 // TODO 应该将用了c版本的verify_area都改为rust的verify_area match verify_area(vaddr, core::mem::size_of::()) { Ok(_) => Self::fstat(fd, kstat), Err(e) => Err(e), } } SYS_FCNTL => { let fd = args[0] as i32; let cmd: Option = ::from_u32(args[1] as u32); let arg = args[2] as i32; let res = if let Some(cmd) = cmd { Self::fcntl(fd, cmd, arg) } else { Err(SystemError::EINVAL) }; // kdebug!("FCNTL: fd: {}, cmd: {:?}, arg: {}, res: {:?}", fd, cmd, arg, res); res } SYS_FTRUNCATE => { let fd = args[0] as i32; let len = args[1] as usize; let res = Self::ftruncate(fd, len); // kdebug!("FTRUNCATE: fd: {}, len: {}, res: {:?}", fd, len, res); res } _ => panic!("Unsupported syscall ID: {}", syscall_num), }; let r = r.unwrap_or_else(|e| e.to_posix_errno() as usize); return r; } pub fn put_string( s: *const u8, front_color: u32, back_color: u32, ) -> Result { return Ok(unsafe { do_put_string(s, front_color, back_color) }); } pub fn reboot() -> Result { cpu_reset(); } }