xref: /DragonOS/kernel/src/syscall/mod.rs (revision 40348dd8d5a008ecc9eb3aab931933e4eba0e6da)
1ab5c8ca4Slogin use core::{
282df0a13Shmt     ffi::{c_int, c_void},
31d37ca6dSDonkey Kane     ptr::null,
4ab5c8ca4Slogin     sync::atomic::{AtomicBool, Ordering},
5ab5c8ca4Slogin };
6ab5c8ca4Slogin 
7971462beSGnoCiYeH use crate::{
840609970SGnoCiYeH     arch::{ipc::signal::SigSet, syscall::nr::*},
9597ecc08STTaq     filesystem::vfs::syscall::{PosixStatfs, PosixStatx},
106fc066acSJomo     ipc::shm::{ShmCtlCmd, ShmFlags, ShmId, ShmKey},
11971462beSGnoCiYeH     libs::{futex::constant::FutexFlag, rand::GRandFlags},
12370472f7SLoGin     mm::{page::PAGE_4K_SIZE, syscall::MremapFlags},
134ad52e57S裕依2439     net::syscall::MsgHdr,
140d9b7d92SLoGin     process::{
150d9b7d92SLoGin         fork::KernelCloneArgs,
160d9b7d92SLoGin         resource::{RLimit64, RUsage},
17f0c87a89SGnoCiYeH         ProcessFlags, ProcessManager,
180d9b7d92SLoGin     },
19f0c87a89SGnoCiYeH     sched::{schedule, SchedMode},
20c3dc6f2fSLoGin     syscall::user_access::check_and_clone_cstr,
21971462beSGnoCiYeH };
2240314b30SXiaoye Zheng 
2391e9d4abSLoGin use num_traits::FromPrimitive;
2491e9d4abSLoGin use system_error::SystemError;
25676b8ef6SMork 
26ab5c8ca4Slogin use crate::{
271496ba7bSLoGin     arch::{cpu::cpu_reset, interrupt::TrapFrame, MMArch},
28ab5c8ca4Slogin     filesystem::vfs::{
299e481b3bSTTaq         fcntl::{AtFlags, FcntlCommand},
30ab5c8ca4Slogin         file::FileMode,
3182df0a13Shmt         syscall::{ModeType, PosixKstat},
32ab5c8ca4Slogin         MAX_PATHLEN,
33ab5c8ca4Slogin     },
34aa0367d6SLoGin     kinfo,
3540fe15e0SLoGin     libs::align::page_align_up,
36be63f3b2Shoumkh     mm::{verify_area, MemoryManagementArch, VirtAddr},
37ab5c8ca4Slogin     net::syscall::SockAddr,
388c6f2184Ssspphh     process::{fork::CloneFlags, syscall::PosixOldUtsName, Pid},
3936fd0130Shoumkh     time::{
4040fe15e0SLoGin         syscall::{PosixTimeZone, PosixTimeval},
416fc066acSJomo         PosixTimeSpec,
4236fd0130Shoumkh     },
43ab5c8ca4Slogin };
44ab5c8ca4Slogin 
45bf4a4899SLoGin use self::{
46bf4a4899SLoGin     misc::SysInfo,
47bf4a4899SLoGin     user_access::{UserBufferReader, UserBufferWriter},
48bf4a4899SLoGin };
494537ffb7SChiichen 
50bf4a4899SLoGin pub mod misc;
5140fe15e0SLoGin pub mod user_access;
5240fe15e0SLoGin 
53ad1d649eSGnoCiYeH // 与linux不一致的调用,在linux基础上累加
54ad1d649eSGnoCiYeH pub const SYS_PUT_STRING: usize = 100000;
55ad1d649eSGnoCiYeH pub const SYS_SBRK: usize = 100001;
56ab5c8ca4Slogin /// 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
57ad1d649eSGnoCiYeH pub const SYS_CLOCK: usize = 100002;
58ad1d649eSGnoCiYeH pub const SYS_SCHED: usize = 100003;
5940314b30SXiaoye Zheng 
60ab5c8ca4Slogin #[derive(Debug)]
61ab5c8ca4Slogin pub struct Syscall;
62ab5c8ca4Slogin 
63ab5c8ca4Slogin impl Syscall {
64ab5c8ca4Slogin     /// 初始化系统调用
655b59005fSLoGin     #[inline(never)]
66ab5c8ca4Slogin     pub fn init() -> Result<(), SystemError> {
67ab5c8ca4Slogin         static INIT_FLAG: AtomicBool = AtomicBool::new(false);
68ab5c8ca4Slogin         let prev = INIT_FLAG.swap(true, Ordering::SeqCst);
69ab5c8ca4Slogin         if prev {
70ab5c8ca4Slogin             panic!("Cannot initialize syscall more than once!");
71ab5c8ca4Slogin         }
725b59005fSLoGin         kinfo!("Initializing syscall...");
735b59005fSLoGin         let r = crate::arch::syscall::arch_syscall_init();
745b59005fSLoGin         kinfo!("Syscall init successfully!");
755b59005fSLoGin 
765b59005fSLoGin         return r;
77ab5c8ca4Slogin     }
78ab5c8ca4Slogin     /// @brief 系统调用分发器,用于分发系统调用。
79ab5c8ca4Slogin     ///
80ab5c8ca4Slogin     /// 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。
81ab5c8ca4Slogin     /// 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。
824fda81ceSLoGin     #[inline(never)]
839e9ffedfSPlucky923     pub fn handle(
849e9ffedfSPlucky923         syscall_num: usize,
859e9ffedfSPlucky923         args: &[usize],
869e9ffedfSPlucky923         frame: &mut TrapFrame,
879e9ffedfSPlucky923     ) -> Result<usize, SystemError> {
88ab5c8ca4Slogin         let r = match syscall_num {
89ab5c8ca4Slogin             SYS_PUT_STRING => {
90ab5c8ca4Slogin                 Self::put_string(args[0] as *const u8, args[1] as u32, args[2] as u32)
91ab5c8ca4Slogin             }
924fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
93ab5c8ca4Slogin             SYS_OPEN => {
9482df0a13Shmt                 let path = args[0] as *const u8;
9582df0a13Shmt                 let flags = args[1] as u32;
9682df0a13Shmt                 let mode = args[2] as u32;
9734e6d6c8Syuyi2439 
9882df0a13Shmt                 Self::open(path, flags, mode, true)
990fb515b0SLoGin             }
1000fb515b0SLoGin 
10170f159a3SLoGin             #[cfg(target_arch = "x86_64")]
1029e481b3bSTTaq             SYS_RENAME => {
1039e481b3bSTTaq                 let oldname: *const u8 = args[0] as *const u8;
1049e481b3bSTTaq                 let newname: *const u8 = args[1] as *const u8;
1059e481b3bSTTaq                 Self::do_renameat2(
1069e481b3bSTTaq                     AtFlags::AT_FDCWD.bits(),
1079e481b3bSTTaq                     oldname,
1089e481b3bSTTaq                     AtFlags::AT_FDCWD.bits(),
1099e481b3bSTTaq                     newname,
1109e481b3bSTTaq                     0,
1119e481b3bSTTaq                 )
1129e481b3bSTTaq             }
1139e481b3bSTTaq 
11470f159a3SLoGin             #[cfg(target_arch = "x86_64")]
1159e481b3bSTTaq             SYS_RENAMEAT => {
1169e481b3bSTTaq                 let oldfd = args[0] as i32;
1179e481b3bSTTaq                 let oldname: *const u8 = args[1] as *const u8;
1189e481b3bSTTaq                 let newfd = args[2] as i32;
1199e481b3bSTTaq                 let newname: *const u8 = args[3] as *const u8;
1209e481b3bSTTaq                 Self::do_renameat2(oldfd, oldname, newfd, newname, 0)
1219e481b3bSTTaq             }
1229e481b3bSTTaq 
1239e481b3bSTTaq             SYS_RENAMEAT2 => {
1249e481b3bSTTaq                 let oldfd = args[0] as i32;
1259e481b3bSTTaq                 let oldname: *const u8 = args[1] as *const u8;
1269e481b3bSTTaq                 let newfd = args[2] as i32;
1279e481b3bSTTaq                 let newname: *const u8 = args[3] as *const u8;
1289e481b3bSTTaq                 let flags = args[4] as u32;
1299e481b3bSTTaq                 Self::do_renameat2(oldfd, oldname, newfd, newname, flags)
1309e481b3bSTTaq             }
1319e481b3bSTTaq 
1320fb515b0SLoGin             SYS_OPENAT => {
1330fb515b0SLoGin                 let dirfd = args[0] as i32;
13482df0a13Shmt                 let path = args[1] as *const u8;
13582df0a13Shmt                 let flags = args[2] as u32;
13682df0a13Shmt                 let mode = args[3] as u32;
1370fb515b0SLoGin 
13882df0a13Shmt                 Self::openat(dirfd, path, flags, mode, true)
139ab5c8ca4Slogin             }
140ab5c8ca4Slogin             SYS_CLOSE => {
141ab5c8ca4Slogin                 let fd = args[0];
14227b967a3S裕依                 Self::close(fd)
143ab5c8ca4Slogin             }
144ab5c8ca4Slogin             SYS_READ => {
145ab5c8ca4Slogin                 let fd = args[0] as i32;
146ab5c8ca4Slogin                 let buf_vaddr = args[1];
147ab5c8ca4Slogin                 let len = args[2];
148b5b571e0SLoGin                 let from_user = frame.is_from_user();
1499e9ffedfSPlucky923                 let mut user_buffer_writer =
1509e9ffedfSPlucky923                     UserBufferWriter::new(buf_vaddr as *mut u8, len, from_user)?;
1516d81180bSLoGin 
1529e9ffedfSPlucky923                 let user_buf = user_buffer_writer.buffer(0)?;
15327b967a3S裕依                 Self::read(fd, user_buf)
154ab5c8ca4Slogin             }
155ab5c8ca4Slogin             SYS_WRITE => {
156ab5c8ca4Slogin                 let fd = args[0] as i32;
157ab5c8ca4Slogin                 let buf_vaddr = args[1];
158ab5c8ca4Slogin                 let len = args[2];
159b5b571e0SLoGin                 let from_user = frame.is_from_user();
1609e9ffedfSPlucky923                 let user_buffer_reader =
1619e9ffedfSPlucky923                     UserBufferReader::new(buf_vaddr as *const u8, len, from_user)?;
1626d81180bSLoGin 
1639e9ffedfSPlucky923                 let user_buf = user_buffer_reader.read_from_user(0)?;
16427b967a3S裕依                 Self::write(fd, user_buf)
165ab5c8ca4Slogin             }
166ab5c8ca4Slogin 
167ab5c8ca4Slogin             SYS_LSEEK => {
168ab5c8ca4Slogin                 let fd = args[0] as i32;
169ab5c8ca4Slogin                 let offset = args[1] as i64;
170ab5c8ca4Slogin                 let whence = args[2] as u32;
171ab5c8ca4Slogin 
17282df0a13Shmt                 Self::lseek(fd, offset, whence)
173ab5c8ca4Slogin             }
17427b967a3S裕依 
17527b967a3S裕依             SYS_PREAD64 => {
17627b967a3S裕依                 let fd = args[0] as i32;
17727b967a3S裕依                 let buf_vaddr = args[1];
17827b967a3S裕依                 let len = args[2];
17927b967a3S裕依                 let offset = args[3];
18027b967a3S裕依 
18127b967a3S裕依                 let mut user_buffer_writer =
182b5b571e0SLoGin                     UserBufferWriter::new(buf_vaddr as *mut u8, len, frame.is_from_user())?;
18327b967a3S裕依                 let buf = user_buffer_writer.buffer(0)?;
18427b967a3S裕依                 Self::pread(fd, buf, len, offset)
18527b967a3S裕依             }
18627b967a3S裕依 
18727b967a3S裕依             SYS_PWRITE64 => {
18827b967a3S裕依                 let fd = args[0] as i32;
18927b967a3S裕依                 let buf_vaddr = args[1];
19027b967a3S裕依                 let len = args[2];
19127b967a3S裕依                 let offset = args[3];
19227b967a3S裕依 
19327b967a3S裕依                 let user_buffer_reader =
194b5b571e0SLoGin                     UserBufferReader::new(buf_vaddr as *const u8, len, frame.is_from_user())?;
19527b967a3S裕依 
19627b967a3S裕依                 let buf = user_buffer_reader.read_from_user(0)?;
19727b967a3S裕依                 Self::pwrite(fd, buf, len, offset)
19827b967a3S裕依             }
19927b967a3S裕依 
20040314b30SXiaoye Zheng             SYS_IOCTL => {
20140314b30SXiaoye Zheng                 let fd = args[0];
20240314b30SXiaoye Zheng                 let cmd = args[1];
20340314b30SXiaoye Zheng                 let data = args[2];
20440314b30SXiaoye Zheng                 Self::ioctl(fd, cmd as u32, data)
20540314b30SXiaoye Zheng             }
206ab5c8ca4Slogin 
2074fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
2081496ba7bSLoGin             SYS_FORK => Self::fork(frame),
2094fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
2101496ba7bSLoGin             SYS_VFORK => Self::vfork(frame),
2111496ba7bSLoGin 
212ab5c8ca4Slogin             SYS_BRK => {
21340fe15e0SLoGin                 let new_brk = VirtAddr::new(args[0]);
21440fe15e0SLoGin                 Self::brk(new_brk).map(|vaddr| vaddr.data())
215ab5c8ca4Slogin             }
216ab5c8ca4Slogin 
217ab5c8ca4Slogin             SYS_SBRK => {
218ab5c8ca4Slogin                 let increment = args[0] as isize;
2191496ba7bSLoGin                 Self::sbrk(increment).map(|vaddr: VirtAddr| vaddr.data())
220ab5c8ca4Slogin             }
221ab5c8ca4Slogin 
222ab5c8ca4Slogin             SYS_REBOOT => Self::reboot(),
223ab5c8ca4Slogin 
224ab5c8ca4Slogin             SYS_CHDIR => {
22582df0a13Shmt                 let r = args[0] as *const u8;
2269e9ffedfSPlucky923                 Self::chdir(r)
227ab5c8ca4Slogin             }
228ab5c8ca4Slogin 
2294fda81ceSLoGin             #[allow(unreachable_patterns)]
2304fda81ceSLoGin             SYS_GETDENTS64 | SYS_GETDENTS => {
231ab5c8ca4Slogin                 let fd = args[0] as i32;
23234e6d6c8Syuyi2439 
233ab5c8ca4Slogin                 let buf_vaddr = args[1];
234ab5c8ca4Slogin                 let len = args[2];
235f5df0e79SLoGin                 let virt_addr: VirtAddr = VirtAddr::new(buf_vaddr);
236ab5c8ca4Slogin                 // 判断缓冲区是否来自用户态,进行权限校验
237b5b571e0SLoGin                 let res = if frame.is_from_user() && verify_area(virt_addr, len).is_err() {
238ab5c8ca4Slogin                     // 来自用户态,而buffer在内核态,这样的操作不被允许
239ab5c8ca4Slogin                     Err(SystemError::EPERM)
240ab5c8ca4Slogin                 } else if buf_vaddr == 0 {
241ab5c8ca4Slogin                     Err(SystemError::EFAULT)
242ab5c8ca4Slogin                 } else {
243ab5c8ca4Slogin                     let buf: &mut [u8] = unsafe {
244ab5c8ca4Slogin                         core::slice::from_raw_parts_mut::<'static, u8>(buf_vaddr as *mut u8, len)
245ab5c8ca4Slogin                     };
246ab5c8ca4Slogin                     Self::getdents(fd, buf)
247ab5c8ca4Slogin                 };
248ab5c8ca4Slogin 
249ab5c8ca4Slogin                 res
250ab5c8ca4Slogin             }
251ab5c8ca4Slogin 
252ab5c8ca4Slogin             SYS_EXECVE => {
253ab5c8ca4Slogin                 let path_ptr = args[0];
254ab5c8ca4Slogin                 let argv_ptr = args[1];
255ab5c8ca4Slogin                 let env_ptr = args[2];
256be63f3b2Shoumkh                 let virt_path_ptr = VirtAddr::new(path_ptr);
257be63f3b2Shoumkh                 let virt_argv_ptr = VirtAddr::new(argv_ptr);
258be63f3b2Shoumkh                 let virt_env_ptr = VirtAddr::new(env_ptr);
259ab5c8ca4Slogin                 // 权限校验
260b5b571e0SLoGin                 if frame.is_from_user()
261b5b571e0SLoGin                     && (verify_area(virt_path_ptr, MAX_PATHLEN).is_err()
262370472f7SLoGin                         || verify_area(virt_argv_ptr, PAGE_4K_SIZE).is_err())
263370472f7SLoGin                     || verify_area(virt_env_ptr, PAGE_4K_SIZE).is_err()
264ab5c8ca4Slogin                 {
265ab5c8ca4Slogin                     Err(SystemError::EFAULT)
266ab5c8ca4Slogin                 } else {
267ab5c8ca4Slogin                     Self::execve(
2681496ba7bSLoGin                         path_ptr as *const u8,
2691496ba7bSLoGin                         argv_ptr as *const *const u8,
2701496ba7bSLoGin                         env_ptr as *const *const u8,
2711496ba7bSLoGin                         frame,
272ab5c8ca4Slogin                     )
2731496ba7bSLoGin                     .map(|_| 0)
274ab5c8ca4Slogin                 }
275ab5c8ca4Slogin             }
276ab5c8ca4Slogin             SYS_WAIT4 => {
277bf4a4899SLoGin                 let pid = args[0] as i32;
2781496ba7bSLoGin                 let wstatus = args[1] as *mut i32;
279ab5c8ca4Slogin                 let options = args[2] as c_int;
280ab5c8ca4Slogin                 let rusage = args[3] as *mut c_void;
281ab5c8ca4Slogin                 // 权限校验
282ab5c8ca4Slogin                 // todo: 引入rusage之后,更正以下权限校验代码中,rusage的大小
283bf4a4899SLoGin                 Self::wait4(pid.into(), wstatus, options, rusage)
284ab5c8ca4Slogin             }
285ab5c8ca4Slogin 
286ab5c8ca4Slogin             SYS_EXIT => {
287ab5c8ca4Slogin                 let exit_code = args[0];
288ab5c8ca4Slogin                 Self::exit(exit_code)
289ab5c8ca4Slogin             }
2904fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
291ab5c8ca4Slogin             SYS_MKDIR => {
29282df0a13Shmt                 let path = args[0] as *const u8;
293ab5c8ca4Slogin                 let mode = args[1];
294ab5c8ca4Slogin 
29582df0a13Shmt                 Self::mkdir(path, mode)
296ab5c8ca4Slogin             }
297ab5c8ca4Slogin 
298ab5c8ca4Slogin             SYS_NANOSLEEP => {
2996fc066acSJomo                 let req = args[0] as *const PosixTimeSpec;
3006fc066acSJomo                 let rem = args[1] as *mut PosixTimeSpec;
301be63f3b2Shoumkh                 let virt_req = VirtAddr::new(req as usize);
302be63f3b2Shoumkh                 let virt_rem = VirtAddr::new(rem as usize);
303b5b571e0SLoGin                 if frame.is_from_user()
3046fc066acSJomo                     && (verify_area(virt_req, core::mem::size_of::<PosixTimeSpec>()).is_err()
3056fc066acSJomo                         || verify_area(virt_rem, core::mem::size_of::<PosixTimeSpec>()).is_err())
306ab5c8ca4Slogin                 {
307ab5c8ca4Slogin                     Err(SystemError::EFAULT)
308ab5c8ca4Slogin                 } else {
309ab5c8ca4Slogin                     Self::nanosleep(req, rem)
310ab5c8ca4Slogin                 }
311ab5c8ca4Slogin             }
312ab5c8ca4Slogin 
313ab5c8ca4Slogin             SYS_CLOCK => Self::clock(),
3144fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
315ab5c8ca4Slogin             SYS_PIPE => {
31622c9db31Shanjiezhou                 let pipefd: *mut i32 = args[0] as *mut c_int;
3170fb515b0SLoGin                 if pipefd.is_null() {
3180fb515b0SLoGin                     Err(SystemError::EFAULT)
3190fb515b0SLoGin                 } else {
3200fb515b0SLoGin                     Self::pipe2(pipefd, FileMode::empty())
3210fb515b0SLoGin                 }
3220fb515b0SLoGin             }
3234ad52e57S裕依2439 
3240fb515b0SLoGin             SYS_PIPE2 => {
3250fb515b0SLoGin                 let pipefd: *mut i32 = args[0] as *mut c_int;
32622c9db31Shanjiezhou                 let arg1 = args[1];
32722c9db31Shanjiezhou                 if pipefd.is_null() {
32822c9db31Shanjiezhou                     Err(SystemError::EFAULT)
32922c9db31Shanjiezhou                 } else {
33022c9db31Shanjiezhou                     let flags = FileMode::from_bits_truncate(arg1 as u32);
33122c9db31Shanjiezhou                     Self::pipe2(pipefd, flags)
332ab5c8ca4Slogin                 }
333ab5c8ca4Slogin             }
334ab5c8ca4Slogin 
3354fda81ceSLoGin             SYS_UNLINKAT => {
336ab5c8ca4Slogin                 let dirfd = args[0] as i32;
33782df0a13Shmt                 let path = args[1] as *const u8;
338ab5c8ca4Slogin                 let flags = args[2] as u32;
33982df0a13Shmt                 Self::unlinkat(dirfd, path, flags)
340ab5c8ca4Slogin             }
341bf4a4899SLoGin 
3424fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
3435eeefb8cSChenzx             SYS_RMDIR => {
34482df0a13Shmt                 let path = args[0] as *const u8;
34582df0a13Shmt                 Self::rmdir(path)
3465eeefb8cSChenzx             }
3475eeefb8cSChenzx 
3489b96c5b5SLoGin             #[cfg(target_arch = "x86_64")]
3494695947eSChenzx             SYS_LINK => {
3504695947eSChenzx                 let old = args[0] as *const u8;
3514695947eSChenzx                 let new = args[1] as *const u8;
3524695947eSChenzx                 return Self::link(old, new);
3534695947eSChenzx             }
3544695947eSChenzx 
3554695947eSChenzx             SYS_LINKAT => {
3564695947eSChenzx                 let oldfd = args[0] as i32;
3574695947eSChenzx                 let old = args[1] as *const u8;
3584695947eSChenzx                 let newfd = args[2] as i32;
3594695947eSChenzx                 let new = args[3] as *const u8;
3604695947eSChenzx                 let flags = args[4] as i32;
3614695947eSChenzx                 return Self::linkat(oldfd, old, newfd, new, flags);
3624695947eSChenzx             }
3634695947eSChenzx 
3645eeefb8cSChenzx             #[cfg(target_arch = "x86_64")]
365bf4a4899SLoGin             SYS_UNLINK => {
36682df0a13Shmt                 let path = args[0] as *const u8;
36782df0a13Shmt                 Self::unlink(path)
368bf4a4899SLoGin             }
369ab5c8ca4Slogin             SYS_KILL => {
3701496ba7bSLoGin                 let pid = Pid::new(args[0]);
371ab5c8ca4Slogin                 let sig = args[1] as c_int;
3723c82aa56SChiichen                 // kdebug!("KILL SYSCALL RECEIVED");
373ab5c8ca4Slogin                 Self::kill(pid, sig)
374ab5c8ca4Slogin             }
375ab5c8ca4Slogin 
3764fda81ceSLoGin             SYS_RT_SIGACTION => {
377ab5c8ca4Slogin                 let sig = args[0] as c_int;
378ab5c8ca4Slogin                 let act = args[1];
379ab5c8ca4Slogin                 let old_act = args[2];
380b5b571e0SLoGin                 Self::sigaction(sig, act, old_act, frame.is_from_user())
381ab5c8ca4Slogin             }
382ab5c8ca4Slogin 
3831496ba7bSLoGin             SYS_GETPID => Self::getpid().map(|pid| pid.into()),
384ab5c8ca4Slogin 
385f0c87a89SGnoCiYeH             SYS_SCHED => {
386f0c87a89SGnoCiYeH                 kwarn!("syscall sched");
387f0c87a89SGnoCiYeH                 schedule(SchedMode::SM_NONE);
388f0c87a89SGnoCiYeH                 Ok(0)
389f0c87a89SGnoCiYeH             }
390ab5c8ca4Slogin             SYS_DUP => {
391ab5c8ca4Slogin                 let oldfd: i32 = args[0] as c_int;
392ab5c8ca4Slogin                 Self::dup(oldfd)
393ab5c8ca4Slogin             }
3944fda81ceSLoGin 
3954fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
396ab5c8ca4Slogin             SYS_DUP2 => {
397ab5c8ca4Slogin                 let oldfd: i32 = args[0] as c_int;
398ab5c8ca4Slogin                 let newfd: i32 = args[1] as c_int;
399ab5c8ca4Slogin                 Self::dup2(oldfd, newfd)
400ab5c8ca4Slogin             }
401ab5c8ca4Slogin 
402*40348dd8Szwb0x00             SYS_DUP3 => {
403*40348dd8Szwb0x00                 let oldfd: i32 = args[0] as c_int;
404*40348dd8Szwb0x00                 let newfd: i32 = args[1] as c_int;
405*40348dd8Szwb0x00                 let flags: u32 = args[2] as u32;
406*40348dd8Szwb0x00                 Self::dup3(oldfd, newfd, flags)
407*40348dd8Szwb0x00             }
408*40348dd8Szwb0x00 
409ab5c8ca4Slogin             SYS_SOCKET => Self::socket(args[0], args[1], args[2]),
410ab5c8ca4Slogin             SYS_SETSOCKOPT => {
411ab5c8ca4Slogin                 let optval = args[3] as *const u8;
412b5b571e0SLoGin                 let optlen = args[4];
413be63f3b2Shoumkh                 let virt_optval = VirtAddr::new(optval as usize);
414ab5c8ca4Slogin                 // 验证optval的地址是否合法
415b5b571e0SLoGin                 if verify_area(virt_optval, optlen).is_err() {
416ab5c8ca4Slogin                     // 地址空间超出了用户空间的范围,不合法
417ab5c8ca4Slogin                     Err(SystemError::EFAULT)
418ab5c8ca4Slogin                 } else {
419ab5c8ca4Slogin                     let data: &[u8] = unsafe { core::slice::from_raw_parts(optval, optlen) };
420ab5c8ca4Slogin                     Self::setsockopt(args[0], args[1], args[2], data)
421ab5c8ca4Slogin                 }
422ab5c8ca4Slogin             }
423ab5c8ca4Slogin             SYS_GETSOCKOPT => {
424ab5c8ca4Slogin                 let optval = args[3] as *mut u8;
425ab5c8ca4Slogin                 let optlen = args[4] as *mut usize;
426be63f3b2Shoumkh                 let virt_optval = VirtAddr::new(optval as usize);
427be63f3b2Shoumkh                 let virt_optlen = VirtAddr::new(optlen as usize);
428ab5c8ca4Slogin                 let security_check = || {
429ab5c8ca4Slogin                     // 验证optval的地址是否合法
430370472f7SLoGin                     if verify_area(virt_optval, PAGE_4K_SIZE).is_err() {
431ab5c8ca4Slogin                         // 地址空间超出了用户空间的范围,不合法
432ab5c8ca4Slogin                         return Err(SystemError::EFAULT);
433ab5c8ca4Slogin                     }
434ab5c8ca4Slogin 
435ab5c8ca4Slogin                     // 验证optlen的地址是否合法
436b5b571e0SLoGin                     if verify_area(virt_optlen, core::mem::size_of::<u32>()).is_err() {
437ab5c8ca4Slogin                         // 地址空间超出了用户空间的范围,不合法
438ab5c8ca4Slogin                         return Err(SystemError::EFAULT);
439ab5c8ca4Slogin                     }
440ab5c8ca4Slogin                     return Ok(());
441ab5c8ca4Slogin                 };
442ab5c8ca4Slogin                 let r = security_check();
443b5b571e0SLoGin                 if let Err(e) = r {
444b5b571e0SLoGin                     Err(e)
445ab5c8ca4Slogin                 } else {
446ab5c8ca4Slogin                     Self::getsockopt(args[0], args[1], args[2], optval, optlen as *mut u32)
447ab5c8ca4Slogin                 }
448ab5c8ca4Slogin             }
449ab5c8ca4Slogin 
450ab5c8ca4Slogin             SYS_CONNECT => {
451ab5c8ca4Slogin                 let addr = args[1] as *const SockAddr;
452b5b571e0SLoGin                 let addrlen = args[2];
453be63f3b2Shoumkh                 let virt_addr = VirtAddr::new(addr as usize);
454ab5c8ca4Slogin                 // 验证addr的地址是否合法
455b5b571e0SLoGin                 if verify_area(virt_addr, addrlen).is_err() {
456ab5c8ca4Slogin                     // 地址空间超出了用户空间的范围,不合法
457ab5c8ca4Slogin                     Err(SystemError::EFAULT)
458ab5c8ca4Slogin                 } else {
459ab5c8ca4Slogin                     Self::connect(args[0], addr, addrlen)
460ab5c8ca4Slogin                 }
461ab5c8ca4Slogin             }
462ab5c8ca4Slogin             SYS_BIND => {
463ab5c8ca4Slogin                 let addr = args[1] as *const SockAddr;
464b5b571e0SLoGin                 let addrlen = args[2];
465be63f3b2Shoumkh                 let virt_addr = VirtAddr::new(addr as usize);
466ab5c8ca4Slogin                 // 验证addr的地址是否合法
467b5b571e0SLoGin                 if verify_area(virt_addr, addrlen).is_err() {
468ab5c8ca4Slogin                     // 地址空间超出了用户空间的范围,不合法
469ab5c8ca4Slogin                     Err(SystemError::EFAULT)
470ab5c8ca4Slogin                 } else {
471ab5c8ca4Slogin                     Self::bind(args[0], addr, addrlen)
472ab5c8ca4Slogin                 }
473ab5c8ca4Slogin             }
474ab5c8ca4Slogin 
475ab5c8ca4Slogin             SYS_SENDTO => {
476ab5c8ca4Slogin                 let buf = args[1] as *const u8;
477b5b571e0SLoGin                 let len = args[2];
478ab5c8ca4Slogin                 let flags = args[3] as u32;
479ab5c8ca4Slogin                 let addr = args[4] as *const SockAddr;
480b5b571e0SLoGin                 let addrlen = args[5];
481be63f3b2Shoumkh                 let virt_buf = VirtAddr::new(buf as usize);
482be63f3b2Shoumkh                 let virt_addr = VirtAddr::new(addr as usize);
483ab5c8ca4Slogin                 // 验证buf的地址是否合法
484b5b571e0SLoGin                 if verify_area(virt_buf, len).is_err() || verify_area(virt_addr, addrlen).is_err() {
485ab5c8ca4Slogin                     // 地址空间超出了用户空间的范围,不合法
486ab5c8ca4Slogin                     Err(SystemError::EFAULT)
487ab5c8ca4Slogin                 } else {
488ab5c8ca4Slogin                     let data: &[u8] = unsafe { core::slice::from_raw_parts(buf, len) };
489ab5c8ca4Slogin                     Self::sendto(args[0], data, flags, addr, addrlen)
490ab5c8ca4Slogin                 }
491ab5c8ca4Slogin             }
492ab5c8ca4Slogin 
493ab5c8ca4Slogin             SYS_RECVFROM => {
494ab5c8ca4Slogin                 let buf = args[1] as *mut u8;
495b5b571e0SLoGin                 let len = args[2];
496ab5c8ca4Slogin                 let flags = args[3] as u32;
497ab5c8ca4Slogin                 let addr = args[4] as *mut SockAddr;
498ab5c8ca4Slogin                 let addrlen = args[5] as *mut usize;
499be63f3b2Shoumkh                 let virt_buf = VirtAddr::new(buf as usize);
500be63f3b2Shoumkh                 let virt_addrlen = VirtAddr::new(addrlen as usize);
501be63f3b2Shoumkh                 let virt_addr = VirtAddr::new(addr as usize);
502ab5c8ca4Slogin                 let security_check = || {
503ab5c8ca4Slogin                     // 验证buf的地址是否合法
504840045afSLoGin                     if verify_area(virt_buf, len).is_err() {
505ab5c8ca4Slogin                         // 地址空间超出了用户空间的范围,不合法
506ab5c8ca4Slogin                         return Err(SystemError::EFAULT);
507ab5c8ca4Slogin                     }
508ab5c8ca4Slogin 
509ab5c8ca4Slogin                     // 验证addrlen的地址是否合法
510840045afSLoGin                     if verify_area(virt_addrlen, core::mem::size_of::<u32>()).is_err() {
511ab5c8ca4Slogin                         // 地址空间超出了用户空间的范围,不合法
512ab5c8ca4Slogin                         return Err(SystemError::EFAULT);
513ab5c8ca4Slogin                     }
514ab5c8ca4Slogin 
515840045afSLoGin                     if verify_area(virt_addr, core::mem::size_of::<SockAddr>()).is_err() {
516ab5c8ca4Slogin                         // 地址空间超出了用户空间的范围,不合法
517ab5c8ca4Slogin                         return Err(SystemError::EFAULT);
518ab5c8ca4Slogin                     }
519ab5c8ca4Slogin                     return Ok(());
520ab5c8ca4Slogin                 };
521ab5c8ca4Slogin                 let r = security_check();
522b5b571e0SLoGin                 if let Err(e) = r {
523b5b571e0SLoGin                     Err(e)
524ab5c8ca4Slogin                 } else {
525ab5c8ca4Slogin                     let buf = unsafe { core::slice::from_raw_parts_mut(buf, len) };
526ab5c8ca4Slogin                     Self::recvfrom(args[0], buf, flags, addr, addrlen as *mut u32)
527ab5c8ca4Slogin                 }
528ab5c8ca4Slogin             }
529ab5c8ca4Slogin 
530ab5c8ca4Slogin             SYS_RECVMSG => {
5314ad52e57S裕依2439                 let msg = args[1] as *mut MsgHdr;
532ab5c8ca4Slogin                 let flags = args[2] as u32;
5334ad52e57S裕依2439 
534b5b571e0SLoGin                 let mut user_buffer_writer = UserBufferWriter::new(
535b5b571e0SLoGin                     msg,
536b5b571e0SLoGin                     core::mem::size_of::<MsgHdr>(),
537b5b571e0SLoGin                     frame.is_from_user(),
538b5b571e0SLoGin                 )?;
5394ad52e57S裕依2439                 let buffer = user_buffer_writer.buffer::<MsgHdr>(0)?;
5404ad52e57S裕依2439 
5414537ffb7SChiichen                 let msg = &mut buffer[0];
542ab5c8ca4Slogin                 Self::recvmsg(args[0], msg, flags)
543ab5c8ca4Slogin             }
544ab5c8ca4Slogin 
545ab5c8ca4Slogin             SYS_LISTEN => Self::listen(args[0], args[1]),
546ab5c8ca4Slogin             SYS_SHUTDOWN => Self::shutdown(args[0], args[1]),
547ab5c8ca4Slogin             SYS_ACCEPT => Self::accept(args[0], args[1] as *mut SockAddr, args[2] as *mut u32),
548c47fe904SLoGin             SYS_ACCEPT4 => Self::accept4(
549c47fe904SLoGin                 args[0],
550c47fe904SLoGin                 args[1] as *mut SockAddr,
551c47fe904SLoGin                 args[2] as *mut u32,
552c47fe904SLoGin                 args[3] as u32,
553c47fe904SLoGin             ),
554ab5c8ca4Slogin             SYS_GETSOCKNAME => {
555ab5c8ca4Slogin                 Self::getsockname(args[0], args[1] as *mut SockAddr, args[2] as *mut u32)
556ab5c8ca4Slogin             }
557ab5c8ca4Slogin             SYS_GETPEERNAME => {
558ab5c8ca4Slogin                 Self::getpeername(args[0], args[1] as *mut SockAddr, args[2] as *mut u32)
559ab5c8ca4Slogin             }
56036fd0130Shoumkh             SYS_GETTIMEOFDAY => {
56136fd0130Shoumkh                 let timeval = args[0] as *mut PosixTimeval;
56240fe15e0SLoGin                 let timezone_ptr = args[1] as *mut PosixTimeZone;
56340fe15e0SLoGin                 Self::gettimeofday(timeval, timezone_ptr)
5644537ffb7SChiichen             }
56540fe15e0SLoGin             SYS_MMAP => {
56640fe15e0SLoGin                 let len = page_align_up(args[1]);
567840045afSLoGin                 let virt_addr = VirtAddr::new(args[0]);
568840045afSLoGin                 if verify_area(virt_addr, len).is_err() {
56940fe15e0SLoGin                     Err(SystemError::EFAULT)
57040fe15e0SLoGin                 } else {
57140fe15e0SLoGin                     Self::mmap(
57240fe15e0SLoGin                         VirtAddr::new(args[0]),
57340fe15e0SLoGin                         len,
57440fe15e0SLoGin                         args[2],
57540fe15e0SLoGin                         args[3],
57640fe15e0SLoGin                         args[4] as i32,
57740fe15e0SLoGin                         args[5],
57840fe15e0SLoGin                     )
57940fe15e0SLoGin                 }
58040fe15e0SLoGin             }
5814cfa009bSJomo             SYS_MREMAP => {
5824cfa009bSJomo                 let old_vaddr = VirtAddr::new(args[0]);
5834cfa009bSJomo                 let old_len = args[1];
5844cfa009bSJomo                 let new_len = args[2];
5854cfa009bSJomo                 let mremap_flags = MremapFlags::from_bits_truncate(args[3] as u8);
5864cfa009bSJomo                 let new_vaddr = VirtAddr::new(args[4]);
5874cfa009bSJomo 
5884cfa009bSJomo                 Self::mremap(old_vaddr, old_len, new_len, mremap_flags, new_vaddr)
5894cfa009bSJomo             }
59040fe15e0SLoGin             SYS_MUNMAP => {
59140fe15e0SLoGin                 let addr = args[0];
59240fe15e0SLoGin                 let len = page_align_up(args[1]);
593971462beSGnoCiYeH                 if addr & (MMArch::PAGE_SIZE - 1) != 0 {
59440fe15e0SLoGin                     // The addr argument is not a multiple of the page size
59540fe15e0SLoGin                     Err(SystemError::EINVAL)
59640fe15e0SLoGin                 } else {
59740fe15e0SLoGin                     Self::munmap(VirtAddr::new(addr), len)
59840fe15e0SLoGin                 }
59940fe15e0SLoGin             }
60040fe15e0SLoGin             SYS_MPROTECT => {
60140fe15e0SLoGin                 let addr = args[0];
60240fe15e0SLoGin                 let len = page_align_up(args[1]);
603971462beSGnoCiYeH                 if addr & (MMArch::PAGE_SIZE - 1) != 0 {
60440fe15e0SLoGin                     // The addr argument is not a multiple of the page size
60540fe15e0SLoGin                     Err(SystemError::EINVAL)
60640fe15e0SLoGin                 } else {
60740fe15e0SLoGin                     Self::mprotect(VirtAddr::new(addr), len, args[2])
60840fe15e0SLoGin                 }
60940fe15e0SLoGin             }
61040fe15e0SLoGin 
6111496ba7bSLoGin             SYS_GETCWD => {
6121496ba7bSLoGin                 let buf = args[0] as *mut u8;
613840045afSLoGin                 let size = args[1];
6141496ba7bSLoGin                 let security_check = || {
6151496ba7bSLoGin                     verify_area(VirtAddr::new(buf as usize), size)?;
6161496ba7bSLoGin                     return Ok(());
6171496ba7bSLoGin                 };
6181496ba7bSLoGin                 let r = security_check();
619b5b571e0SLoGin                 if let Err(e) = r {
620b5b571e0SLoGin                     Err(e)
6211496ba7bSLoGin                 } else {
6221496ba7bSLoGin                     let buf = unsafe { core::slice::from_raw_parts_mut(buf, size) };
6231496ba7bSLoGin                     Self::getcwd(buf).map(|ptr| ptr.data())
6241496ba7bSLoGin                 }
6251496ba7bSLoGin             }
6261496ba7bSLoGin 
6271496ba7bSLoGin             SYS_GETPGID => Self::getpgid(Pid::new(args[0])).map(|pid| pid.into()),
6281496ba7bSLoGin 
6291496ba7bSLoGin             SYS_GETPPID => Self::getppid().map(|pid| pid.into()),
630be63f3b2Shoumkh             SYS_FSTAT => {
631be63f3b2Shoumkh                 let fd = args[0] as i32;
632b5b571e0SLoGin                 let kstat: *mut PosixKstat = args[1] as *mut PosixKstat;
633be63f3b2Shoumkh                 let vaddr = VirtAddr::new(kstat as usize);
634be63f3b2Shoumkh                 // 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
635be63f3b2Shoumkh                 // TODO 应该将用了c版本的verify_area都改为rust的verify_area
636be63f3b2Shoumkh                 match verify_area(vaddr, core::mem::size_of::<PosixKstat>()) {
637be63f3b2Shoumkh                     Ok(_) => Self::fstat(fd, kstat),
638be63f3b2Shoumkh                     Err(e) => Err(e),
639be63f3b2Shoumkh                 }
640be63f3b2Shoumkh             }
641be63f3b2Shoumkh 
6426d81180bSLoGin             SYS_FCNTL => {
6436d81180bSLoGin                 let fd = args[0] as i32;
6446d81180bSLoGin                 let cmd: Option<FcntlCommand> =
6456d81180bSLoGin                     <FcntlCommand as FromPrimitive>::from_u32(args[1] as u32);
6466d81180bSLoGin                 let arg = args[2] as i32;
6476d81180bSLoGin                 let res = if let Some(cmd) = cmd {
6486d81180bSLoGin                     Self::fcntl(fd, cmd, arg)
6496d81180bSLoGin                 } else {
6506d81180bSLoGin                     Err(SystemError::EINVAL)
6516d81180bSLoGin                 };
6526d81180bSLoGin 
6536d81180bSLoGin                 // kdebug!("FCNTL: fd: {}, cmd: {:?}, arg: {}, res: {:?}", fd, cmd, arg, res);
6546d81180bSLoGin                 res
6556d81180bSLoGin             }
6566d81180bSLoGin 
6576d81180bSLoGin             SYS_FTRUNCATE => {
6586d81180bSLoGin                 let fd = args[0] as i32;
659840045afSLoGin                 let len = args[1];
6606d81180bSLoGin                 let res = Self::ftruncate(fd, len);
6616d81180bSLoGin                 // kdebug!("FTRUNCATE: fd: {}, len: {}, res: {:?}", fd, len, res);
6626d81180bSLoGin                 res
6636d81180bSLoGin             }
6646d81180bSLoGin 
6654fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
6662dbef785SGnoCiYeH             SYS_MKNOD => {
6672dbef785SGnoCiYeH                 let path = args[0];
6682dbef785SGnoCiYeH                 let flags = args[1];
6692dbef785SGnoCiYeH                 let dev_t = args[2];
6702dbef785SGnoCiYeH                 let flags: ModeType = ModeType::from_bits_truncate(flags as u32);
671731bc2b3SLoGin                 Self::mknod(
672731bc2b3SLoGin                     path as *const u8,
673731bc2b3SLoGin                     flags,
674731bc2b3SLoGin                     crate::driver::base::device::device_number::DeviceNumber::from(dev_t as u32),
675731bc2b3SLoGin                 )
6762dbef785SGnoCiYeH             }
6772dbef785SGnoCiYeH 
678971462beSGnoCiYeH             SYS_CLONE => {
679971462beSGnoCiYeH                 let parent_tid = VirtAddr::new(args[2]);
680971462beSGnoCiYeH                 let child_tid = VirtAddr::new(args[3]);
681971462beSGnoCiYeH 
682971462beSGnoCiYeH                 // 地址校验
683971462beSGnoCiYeH                 verify_area(parent_tid, core::mem::size_of::<i32>())?;
684971462beSGnoCiYeH                 verify_area(child_tid, core::mem::size_of::<i32>())?;
685971462beSGnoCiYeH 
686971462beSGnoCiYeH                 let mut clone_args = KernelCloneArgs::new();
687971462beSGnoCiYeH                 clone_args.flags = CloneFlags::from_bits_truncate(args[0] as u64);
688971462beSGnoCiYeH                 clone_args.stack = args[1];
689971462beSGnoCiYeH                 clone_args.parent_tid = parent_tid;
690971462beSGnoCiYeH                 clone_args.child_tid = child_tid;
691971462beSGnoCiYeH                 clone_args.tls = args[4];
692971462beSGnoCiYeH                 Self::clone(frame, clone_args)
693971462beSGnoCiYeH             }
694971462beSGnoCiYeH 
695971462beSGnoCiYeH             SYS_FUTEX => {
696971462beSGnoCiYeH                 let uaddr = VirtAddr::new(args[0]);
697971462beSGnoCiYeH                 let operation = FutexFlag::from_bits(args[1] as u32).ok_or(SystemError::ENOSYS)?;
698971462beSGnoCiYeH                 let val = args[2] as u32;
699971462beSGnoCiYeH                 let utime = args[3];
700971462beSGnoCiYeH                 let uaddr2 = VirtAddr::new(args[4]);
701971462beSGnoCiYeH                 let val3 = args[5] as u32;
702971462beSGnoCiYeH 
703971462beSGnoCiYeH                 let mut timespec = None;
704971462beSGnoCiYeH                 if utime != 0 && operation.contains(FutexFlag::FLAGS_HAS_TIMEOUT) {
705971462beSGnoCiYeH                     let reader = UserBufferReader::new(
7066fc066acSJomo                         utime as *const PosixTimeSpec,
7076fc066acSJomo                         core::mem::size_of::<PosixTimeSpec>(),
708971462beSGnoCiYeH                         true,
709971462beSGnoCiYeH                     )?;
710971462beSGnoCiYeH 
7116fc066acSJomo                     timespec = Some(*reader.read_one_from_user::<PosixTimeSpec>(0)?);
712971462beSGnoCiYeH                 }
713971462beSGnoCiYeH 
714971462beSGnoCiYeH                 Self::do_futex(uaddr, operation, val, timespec, uaddr2, utime as u32, val3)
715971462beSGnoCiYeH             }
716971462beSGnoCiYeH 
71706560afaShmt             SYS_SET_ROBUST_LIST => {
71806560afaShmt                 let head = args[0];
71906560afaShmt                 let head_uaddr = VirtAddr::new(head);
72006560afaShmt                 let len = args[1];
72106560afaShmt 
72206560afaShmt                 let ret = Self::set_robust_list(head_uaddr, len);
72306560afaShmt                 return ret;
72406560afaShmt             }
72506560afaShmt 
72606560afaShmt             SYS_GET_ROBUST_LIST => {
72706560afaShmt                 let pid = args[0];
72806560afaShmt                 let head = args[1];
72906560afaShmt                 let head_uaddr = VirtAddr::new(head);
73006560afaShmt                 let len_ptr = args[2];
73106560afaShmt                 let len_ptr_uaddr = VirtAddr::new(len_ptr);
73206560afaShmt 
73306560afaShmt                 let ret = Self::get_robust_list(pid, head_uaddr, len_ptr_uaddr);
73406560afaShmt                 return ret;
73506560afaShmt             }
73606560afaShmt 
737bf4a4899SLoGin             SYS_READV => Self::readv(args[0] as i32, args[1], args[2]),
738971462beSGnoCiYeH             SYS_WRITEV => Self::writev(args[0] as i32, args[1], args[2]),
739971462beSGnoCiYeH 
7404fda81ceSLoGin             SYS_SET_TID_ADDRESS => Self::set_tid_address(args[0]),
741971462beSGnoCiYeH 
7424fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
7434fda81ceSLoGin             SYS_LSTAT => {
74482df0a13Shmt                 let path = args[0] as *const u8;
745971462beSGnoCiYeH                 let kstat = args[1] as *mut PosixKstat;
74682df0a13Shmt                 Self::lstat(path, kstat)
7474fda81ceSLoGin             }
7484fda81ceSLoGin 
7494fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
7504fda81ceSLoGin             SYS_STAT => {
75182df0a13Shmt                 let path = args[0] as *const u8;
7524fda81ceSLoGin                 let kstat = args[1] as *mut PosixKstat;
75382df0a13Shmt                 Self::stat(path, kstat)
754971462beSGnoCiYeH             }
755971462beSGnoCiYeH 
756597ecc08STTaq             SYS_STATFS => {
757597ecc08STTaq                 let path = args[0] as *const u8;
758597ecc08STTaq                 let statfs = args[1] as *mut PosixStatfs;
759597ecc08STTaq                 Self::statfs(path, statfs)
760597ecc08STTaq             }
761597ecc08STTaq 
762597ecc08STTaq             SYS_FSTATFS => {
763597ecc08STTaq                 let fd = args[0] as i32;
764597ecc08STTaq                 let statfs = args[1] as *mut PosixStatfs;
765597ecc08STTaq                 Self::fstatfs(fd, statfs)
766597ecc08STTaq             }
767597ecc08STTaq 
768b4eb05a1STTaq             SYS_STATX => {
769b4eb05a1STTaq                 let fd = args[0] as i32;
770b4eb05a1STTaq                 let path = args[1] as *const u8;
771b4eb05a1STTaq                 let flags = args[2] as u32;
772b4eb05a1STTaq                 let mask = args[3] as u32;
773b4eb05a1STTaq                 let kstat = args[4] as *mut PosixStatx;
774b4eb05a1STTaq 
775b4eb05a1STTaq                 Self::do_statx(fd, path, flags, mask, kstat)
776b4eb05a1STTaq             }
777b4eb05a1STTaq 
77870f159a3SLoGin             #[cfg(target_arch = "x86_64")]
77940609970SGnoCiYeH             SYS_EPOLL_CREATE => Self::epoll_create(args[0] as i32),
78040609970SGnoCiYeH             SYS_EPOLL_CREATE1 => Self::epoll_create1(args[0]),
78140609970SGnoCiYeH 
78240609970SGnoCiYeH             SYS_EPOLL_CTL => Self::epoll_ctl(
78340609970SGnoCiYeH                 args[0] as i32,
78440609970SGnoCiYeH                 args[1],
78540609970SGnoCiYeH                 args[2] as i32,
78640609970SGnoCiYeH                 VirtAddr::new(args[3]),
78740609970SGnoCiYeH             ),
78840609970SGnoCiYeH 
78970f159a3SLoGin             #[cfg(target_arch = "x86_64")]
79040609970SGnoCiYeH             SYS_EPOLL_WAIT => Self::epoll_wait(
79140609970SGnoCiYeH                 args[0] as i32,
79240609970SGnoCiYeH                 VirtAddr::new(args[1]),
79340609970SGnoCiYeH                 args[2] as i32,
79440609970SGnoCiYeH                 args[3] as i32,
79540609970SGnoCiYeH             ),
79640609970SGnoCiYeH 
79740609970SGnoCiYeH             SYS_EPOLL_PWAIT => {
79840609970SGnoCiYeH                 let epfd = args[0] as i32;
79940609970SGnoCiYeH                 let epoll_event = VirtAddr::new(args[1]);
80040609970SGnoCiYeH                 let max_events = args[2] as i32;
80140609970SGnoCiYeH                 let timespec = args[3] as i32;
80240609970SGnoCiYeH                 let sigmask_addr = args[4] as *mut SigSet;
80340609970SGnoCiYeH 
80440609970SGnoCiYeH                 if sigmask_addr.is_null() {
80540609970SGnoCiYeH                     return Self::epoll_wait(epfd, epoll_event, max_events, timespec);
80640609970SGnoCiYeH                 }
80740609970SGnoCiYeH                 let sigmask_reader =
80840609970SGnoCiYeH                     UserBufferReader::new(sigmask_addr, core::mem::size_of::<SigSet>(), true)?;
809840045afSLoGin                 let mut sigmask = *sigmask_reader.read_one_from_user::<SigSet>(0)?;
81040609970SGnoCiYeH 
81140609970SGnoCiYeH                 Self::epoll_pwait(
81240609970SGnoCiYeH                     args[0] as i32,
81340609970SGnoCiYeH                     VirtAddr::new(args[1]),
81440609970SGnoCiYeH                     args[2] as i32,
81540609970SGnoCiYeH                     args[3] as i32,
81640609970SGnoCiYeH                     &mut sigmask,
81740609970SGnoCiYeH                 )
81840609970SGnoCiYeH             }
81940609970SGnoCiYeH 
820971462beSGnoCiYeH             // 目前为了适配musl-libc,以下系统调用先这样写着
8214fda81ceSLoGin             SYS_GETRANDOM => {
822971462beSGnoCiYeH                 let flags = GRandFlags::from_bits(args[2] as u8).ok_or(SystemError::EINVAL)?;
823971462beSGnoCiYeH                 Self::get_random(args[0] as *mut u8, args[1], flags)
824971462beSGnoCiYeH             }
825971462beSGnoCiYeH 
8264fda81ceSLoGin             SYS_SOCKETPAIR => {
8274ad52e57S裕依2439                 let mut user_buffer_writer = UserBufferWriter::new(
8284ad52e57S裕依2439                     args[3] as *mut c_int,
8294ad52e57S裕依2439                     core::mem::size_of::<[c_int; 2]>(),
830b5b571e0SLoGin                     frame.is_from_user(),
8314ad52e57S裕依2439                 )?;
8324ad52e57S裕依2439                 let fds = user_buffer_writer.buffer::<i32>(0)?;
8334ad52e57S裕依2439                 Self::socketpair(args[0], args[1], args[2], fds)
834971462beSGnoCiYeH             }
835971462beSGnoCiYeH 
8364fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
837971462beSGnoCiYeH             SYS_POLL => {
838971462beSGnoCiYeH                 kwarn!("SYS_POLL has not yet been implemented");
839971462beSGnoCiYeH                 Ok(0)
840971462beSGnoCiYeH             }
841971462beSGnoCiYeH 
84252da9a59SGnoCiYeH             SYS_SETPGID => {
84352da9a59SGnoCiYeH                 kwarn!("SYS_SETPGID has not yet been implemented");
84452da9a59SGnoCiYeH                 Ok(0)
84552da9a59SGnoCiYeH             }
84652da9a59SGnoCiYeH 
847971462beSGnoCiYeH             SYS_RT_SIGPROCMASK => {
848971462beSGnoCiYeH                 kwarn!("SYS_RT_SIGPROCMASK has not yet been implemented");
849971462beSGnoCiYeH                 Ok(0)
850971462beSGnoCiYeH             }
851971462beSGnoCiYeH 
852971462beSGnoCiYeH             SYS_TKILL => {
853971462beSGnoCiYeH                 kwarn!("SYS_TKILL has not yet been implemented");
854971462beSGnoCiYeH                 Ok(0)
855971462beSGnoCiYeH             }
856971462beSGnoCiYeH 
857971462beSGnoCiYeH             SYS_SIGALTSTACK => {
858971462beSGnoCiYeH                 kwarn!("SYS_SIGALTSTACK has not yet been implemented");
859971462beSGnoCiYeH                 Ok(0)
860971462beSGnoCiYeH             }
861971462beSGnoCiYeH 
86216033951SGnoCiYeH             SYS_EXIT_GROUP => {
86316033951SGnoCiYeH                 kwarn!("SYS_EXIT_GROUP has not yet been implemented");
86416033951SGnoCiYeH                 Ok(0)
86516033951SGnoCiYeH             }
86616033951SGnoCiYeH 
86704babc3fSMemoryShore             SYS_MADVISE => {
868a17651b1SMemoryShore                 let addr = args[0];
869a17651b1SMemoryShore                 let len = page_align_up(args[1]);
870a17651b1SMemoryShore                 if addr & (MMArch::PAGE_SIZE - 1) != 0 {
871a17651b1SMemoryShore                     Err(SystemError::EINVAL)
872a17651b1SMemoryShore                 } else {
873a17651b1SMemoryShore                     Self::madvise(VirtAddr::new(addr), len, args[2])
87404babc3fSMemoryShore                 }
875a17651b1SMemoryShore             }
876a17651b1SMemoryShore 
877393f6915SLoGin             SYS_GETTID => Self::gettid().map(|tid| tid.into()),
878840045afSLoGin             SYS_GETUID => Self::getuid(),
8798d72b68dSJomo 
88002e249f3SLoGin             SYS_SYSLOG => {
881840045afSLoGin                 let syslog_action_type = args[0];
8828d72b68dSJomo                 let buf_vaddr = args[1];
8838d72b68dSJomo                 let len = args[2];
884b5b571e0SLoGin                 let from_user = frame.is_from_user();
8858d72b68dSJomo                 let mut user_buffer_writer =
8868d72b68dSJomo                     UserBufferWriter::new(buf_vaddr as *mut u8, len, from_user)?;
8878d72b68dSJomo 
8888d72b68dSJomo                 let user_buf = user_buffer_writer.buffer(0)?;
889840045afSLoGin                 Self::do_syslog(syslog_action_type, user_buf, len)
89002e249f3SLoGin             }
8918d72b68dSJomo 
892840045afSLoGin             SYS_GETGID => Self::getgid(),
89302e249f3SLoGin             SYS_SETUID => {
89402e249f3SLoGin                 kwarn!("SYS_SETUID has not yet been implemented");
89502e249f3SLoGin                 Ok(0)
89602e249f3SLoGin             }
89702e249f3SLoGin             SYS_SETGID => {
89802e249f3SLoGin                 kwarn!("SYS_SETGID has not yet been implemented");
89902e249f3SLoGin                 Ok(0)
90002e249f3SLoGin             }
901dfe53cf0SGnoCiYeH             SYS_SETSID => {
902dfe53cf0SGnoCiYeH                 kwarn!("SYS_SETSID has not yet been implemented");
903dfe53cf0SGnoCiYeH                 Ok(0)
904dfe53cf0SGnoCiYeH             }
905840045afSLoGin             SYS_GETEUID => Self::geteuid(),
906840045afSLoGin             SYS_GETEGID => Self::getegid(),
907be8cdf4bSLoGin             SYS_GETRUSAGE => {
908be8cdf4bSLoGin                 let who = args[0] as c_int;
909be8cdf4bSLoGin                 let rusage = args[1] as *mut RUsage;
910be8cdf4bSLoGin                 Self::get_rusage(who, rusage)
911be8cdf4bSLoGin             }
91204babc3fSMemoryShore 
9134fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
914709498caSLoGin             SYS_READLINK => {
915709498caSLoGin                 let path = args[0] as *const u8;
916709498caSLoGin                 let buf = args[1] as *mut u8;
917840045afSLoGin                 let bufsiz = args[2];
918709498caSLoGin                 Self::readlink(path, buf, bufsiz)
919709498caSLoGin             }
920709498caSLoGin 
9214fda81ceSLoGin             SYS_READLINKAT => {
922709498caSLoGin                 let dirfd = args[0] as i32;
92382df0a13Shmt                 let path = args[1] as *const u8;
924709498caSLoGin                 let buf = args[2] as *mut u8;
925840045afSLoGin                 let bufsiz = args[3];
92682df0a13Shmt                 Self::readlink_at(dirfd, path, buf, bufsiz)
927709498caSLoGin             }
928709498caSLoGin 
9290d9b7d92SLoGin             SYS_PRLIMIT64 => {
9300d9b7d92SLoGin                 let pid = args[0];
9310d9b7d92SLoGin                 let pid = Pid::new(pid);
9320d9b7d92SLoGin                 let resource = args[1];
9330d9b7d92SLoGin                 let new_limit = args[2] as *const RLimit64;
9340d9b7d92SLoGin                 let old_limit = args[3] as *mut RLimit64;
9350d9b7d92SLoGin 
9360d9b7d92SLoGin                 Self::prlimit64(pid, resource, new_limit, old_limit)
9370d9b7d92SLoGin             }
9380d9b7d92SLoGin 
9394fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
9409b0abe6dSLoGin             SYS_ACCESS => {
9419b0abe6dSLoGin                 let pathname = args[0] as *const u8;
9429b0abe6dSLoGin                 let mode = args[1] as u32;
9439b0abe6dSLoGin                 Self::access(pathname, mode)
9449b0abe6dSLoGin             }
9459b0abe6dSLoGin 
9469b0abe6dSLoGin             SYS_FACCESSAT => {
9479b0abe6dSLoGin                 let dirfd = args[0] as i32;
9489b0abe6dSLoGin                 let pathname = args[1] as *const u8;
9499b0abe6dSLoGin                 let mode = args[2] as u32;
9509b0abe6dSLoGin                 Self::faccessat2(dirfd, pathname, mode, 0)
9519b0abe6dSLoGin             }
9529b0abe6dSLoGin 
9539b0abe6dSLoGin             SYS_FACCESSAT2 => {
9549b0abe6dSLoGin                 let dirfd = args[0] as i32;
9559b0abe6dSLoGin                 let pathname = args[1] as *const u8;
9569b0abe6dSLoGin                 let mode = args[2] as u32;
9579b0abe6dSLoGin                 let flags = args[3] as u32;
9589b0abe6dSLoGin                 Self::faccessat2(dirfd, pathname, mode, flags)
9599b0abe6dSLoGin             }
9609b0abe6dSLoGin 
961bf4a4899SLoGin             SYS_CLOCK_GETTIME => {
962bf4a4899SLoGin                 let clockid = args[0] as i32;
9636fc066acSJomo                 let timespec = args[1] as *mut PosixTimeSpec;
964bf4a4899SLoGin                 Self::clock_gettime(clockid, timespec)
965bf4a4899SLoGin             }
966bf4a4899SLoGin 
967bf4a4899SLoGin             SYS_SYSINFO => {
968bf4a4899SLoGin                 let info = args[0] as *mut SysInfo;
969bf4a4899SLoGin                 Self::sysinfo(info)
970bf4a4899SLoGin             }
971bf4a4899SLoGin 
972bf4a4899SLoGin             SYS_UMASK => {
973bf4a4899SLoGin                 let mask = args[0] as u32;
974bf4a4899SLoGin                 Self::umask(mask)
975bf4a4899SLoGin             }
976bf4a4899SLoGin 
97727b967a3S裕依             SYS_FCHOWN => {
97827b967a3S裕依                 kwarn!("SYS_FCHOWN has not yet been implemented");
97927b967a3S裕依                 Ok(0)
98027b967a3S裕依             }
98127b967a3S裕依 
98227b967a3S裕依             SYS_FSYNC => {
98327b967a3S裕依                 kwarn!("SYS_FSYNC has not yet been implemented");
98427b967a3S裕依                 Ok(0)
98527b967a3S裕依             }
98627b967a3S裕依 
987dfe53cf0SGnoCiYeH             SYS_RSEQ => {
988dfe53cf0SGnoCiYeH                 kwarn!("SYS_RSEQ has not yet been implemented");
989dfe53cf0SGnoCiYeH                 Ok(0)
990dfe53cf0SGnoCiYeH             }
991dfe53cf0SGnoCiYeH 
9924fda81ceSLoGin             #[cfg(target_arch = "x86_64")]
993bf4a4899SLoGin             SYS_CHMOD => {
994bf4a4899SLoGin                 let pathname = args[0] as *const u8;
995bf4a4899SLoGin                 let mode = args[1] as u32;
996bf4a4899SLoGin                 Self::chmod(pathname, mode)
997bf4a4899SLoGin             }
998bf4a4899SLoGin             SYS_FCHMOD => {
999bf4a4899SLoGin                 let fd = args[0] as i32;
1000bf4a4899SLoGin                 let mode = args[1] as u32;
1001bf4a4899SLoGin                 Self::fchmod(fd, mode)
1002bf4a4899SLoGin             }
1003bf4a4899SLoGin             SYS_FCHMODAT => {
1004bf4a4899SLoGin                 let dirfd = args[0] as i32;
1005bf4a4899SLoGin                 let pathname = args[1] as *const u8;
1006bf4a4899SLoGin                 let mode = args[2] as u32;
1007bf4a4899SLoGin                 Self::fchmodat(dirfd, pathname, mode)
1008bf4a4899SLoGin             }
1009bf4a4899SLoGin 
101002343d0bSLoGin             SYS_SCHED_GETAFFINITY => {
10119430523bSyuyi2439                 let pid = args[0] as i32;
10129430523bSyuyi2439                 let size = args[1];
10139430523bSyuyi2439                 let set_vaddr = args[2];
101402343d0bSLoGin 
10159430523bSyuyi2439                 let mut user_buffer_writer =
10169430523bSyuyi2439                     UserBufferWriter::new(set_vaddr as *mut u8, size, frame.is_from_user())?;
10179430523bSyuyi2439                 let set: &mut [u8] = user_buffer_writer.buffer(0)?;
10189430523bSyuyi2439 
10199430523bSyuyi2439                 Self::getaffinity(pid, set)
102002343d0bSLoGin             }
102102343d0bSLoGin 
102252da9a59SGnoCiYeH             #[cfg(target_arch = "x86_64")]
102352da9a59SGnoCiYeH             SYS_GETRLIMIT => {
102452da9a59SGnoCiYeH                 let resource = args[0];
102552da9a59SGnoCiYeH                 let rlimit = args[1] as *mut RLimit64;
102652da9a59SGnoCiYeH 
102752da9a59SGnoCiYeH                 Self::prlimit64(
102852da9a59SGnoCiYeH                     ProcessManager::current_pcb().pid(),
102952da9a59SGnoCiYeH                     resource,
1030840045afSLoGin                     core::ptr::null::<RLimit64>(),
103152da9a59SGnoCiYeH                     rlimit,
103252da9a59SGnoCiYeH                 )
103352da9a59SGnoCiYeH             }
103452da9a59SGnoCiYeH 
10359e481b3bSTTaq             SYS_FADVISE64 => {
10369e481b3bSTTaq                 // todo: 这个系统调用还没有实现
10379e481b3bSTTaq 
10389e481b3bSTTaq                 Err(SystemError::ENOSYS)
10399e481b3bSTTaq             }
10401d37ca6dSDonkey Kane 
10411d37ca6dSDonkey Kane             SYS_MOUNT => {
10421d37ca6dSDonkey Kane                 let source = args[0] as *const u8;
10431d37ca6dSDonkey Kane                 let target = args[1] as *const u8;
10441d37ca6dSDonkey Kane                 let filesystemtype = args[2] as *const u8;
10451d37ca6dSDonkey Kane                 return Self::mount(source, target, filesystemtype, 0, null());
10461d37ca6dSDonkey Kane             }
10471074eb34SSamuel Dai 
10481074eb34SSamuel Dai             SYS_UMOUNT2 => {
10491074eb34SSamuel Dai                 let target = args[0] as *const u8;
10501074eb34SSamuel Dai                 let flags = args[1] as i32;
10511074eb34SSamuel Dai                 Self::umount2(target, flags)?;
10521074eb34SSamuel Dai                 return Ok(0);
10531074eb34SSamuel Dai             }
10541074eb34SSamuel Dai 
10559e481b3bSTTaq             SYS_NEWFSTATAT => {
10569e481b3bSTTaq                 // todo: 这个系统调用还没有实现
10579e481b3bSTTaq 
10589e481b3bSTTaq                 Err(SystemError::ENOSYS)
10599e481b3bSTTaq             }
10609e481b3bSTTaq 
1061f0c87a89SGnoCiYeH             // SYS_SCHED_YIELD => Self::sched_yield(),
10628c6f2184Ssspphh             SYS_UNAME => {
10638c6f2184Ssspphh                 let name = args[0] as *mut PosixOldUtsName;
10648c6f2184Ssspphh                 Self::uname(name)
10658c6f2184Ssspphh             }
1066c719ddc6SSaga1718             SYS_PRCTL => {
1067c719ddc6SSaga1718                 // todo: 这个系统调用还没有实现
1068c719ddc6SSaga1718 
1069c719ddc6SSaga1718                 Err(SystemError::EINVAL)
1070c719ddc6SSaga1718             }
10711d37ca6dSDonkey Kane 
1072731bc2b3SLoGin             #[cfg(target_arch = "x86_64")]
1073fbd63a30SSMALLC             SYS_ALARM => {
1074fbd63a30SSMALLC                 let second = args[0] as u32;
1075fbd63a30SSMALLC                 Self::alarm(second)
1076fbd63a30SSMALLC             }
1077fbd63a30SSMALLC 
10786fc066acSJomo             SYS_SHMGET => {
10796fc066acSJomo                 let key = ShmKey::new(args[0]);
10806fc066acSJomo                 let size = args[1];
10816fc066acSJomo                 let shmflg = ShmFlags::from_bits_truncate(args[2] as u32);
10826fc066acSJomo 
10836fc066acSJomo                 Self::shmget(key, size, shmflg)
10846fc066acSJomo             }
10856fc066acSJomo             SYS_SHMAT => {
10866fc066acSJomo                 let id = ShmId::new(args[0]);
10876fc066acSJomo                 let vaddr = VirtAddr::new(args[1]);
10886fc066acSJomo                 let shmflg = ShmFlags::from_bits_truncate(args[2] as u32);
10896fc066acSJomo 
10906fc066acSJomo                 Self::shmat(id, vaddr, shmflg)
10916fc066acSJomo             }
10926fc066acSJomo             SYS_SHMDT => {
10936fc066acSJomo                 let vaddr = VirtAddr::new(args[0]);
10946fc066acSJomo                 Self::shmdt(vaddr)
10956fc066acSJomo             }
10966fc066acSJomo             SYS_SHMCTL => {
10976fc066acSJomo                 let id = ShmId::new(args[0]);
10986fc066acSJomo                 let cmd = ShmCtlCmd::from(args[1]);
10996fc066acSJomo                 let user_buf = args[2] as *const u8;
11006fc066acSJomo                 let from_user = frame.is_from_user();
11016fc066acSJomo 
11026fc066acSJomo                 Self::shmctl(id, cmd, user_buf, from_user)
11036fc066acSJomo             }
11046fc066acSJomo 
1105ab5c8ca4Slogin             _ => panic!("Unsupported syscall ID: {}", syscall_num),
1106ab5c8ca4Slogin         };
11074fda81ceSLoGin 
1108f0c87a89SGnoCiYeH         if ProcessManager::current_pcb()
1109f0c87a89SGnoCiYeH             .flags()
1110f0c87a89SGnoCiYeH             .contains(ProcessFlags::NEED_SCHEDULE)
1111f0c87a89SGnoCiYeH         {
1112f0c87a89SGnoCiYeH             schedule(SchedMode::SM_PREEMPT);
1113f0c87a89SGnoCiYeH         }
1114f0c87a89SGnoCiYeH 
1115ab5c8ca4Slogin         return r;
1116ab5c8ca4Slogin     }
1117ab5c8ca4Slogin 
1118ab5c8ca4Slogin     pub fn put_string(
1119ab5c8ca4Slogin         s: *const u8,
1120ab5c8ca4Slogin         front_color: u32,
1121ab5c8ca4Slogin         back_color: u32,
1122ab5c8ca4Slogin     ) -> Result<usize, SystemError> {
1123c3dc6f2fSLoGin         // todo: 删除这个系统调用
1124c3dc6f2fSLoGin         let s = check_and_clone_cstr(s, Some(4096))?;
1125c3dc6f2fSLoGin         let fr = (front_color & 0x00ff0000) >> 16;
1126c3dc6f2fSLoGin         let fg = (front_color & 0x0000ff00) >> 8;
1127c3dc6f2fSLoGin         let fb = front_color & 0x000000ff;
1128c3dc6f2fSLoGin         let br = (back_color & 0x00ff0000) >> 16;
1129c3dc6f2fSLoGin         let bg = (back_color & 0x0000ff00) >> 8;
1130c3dc6f2fSLoGin         let bb = back_color & 0x000000ff;
1131c3dc6f2fSLoGin         print!("\x1B[38;2;{fr};{fg};{fb};48;2;{br};{bg};{bb}m{s}\x1B[0m");
1132c3dc6f2fSLoGin         return Ok(s.len());
1133ab5c8ca4Slogin     }
1134ab5c8ca4Slogin 
1135ab5c8ca4Slogin     pub fn reboot() -> Result<usize, SystemError> {
11364fda81ceSLoGin         unsafe { cpu_reset() };
1137ab5c8ca4Slogin     }
1138ab5c8ca4Slogin }
1139