227 lines
8.0 KiB
Rust
227 lines
8.0 KiB
Rust
//!
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//! This module provides syscall definitions and the necessary resources to parse incoming
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//! syscalls
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extern crate syscall;
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use core::mem::size_of;
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use syscall::{dirent::DirentHeader, CallFlags, RwFlags, EINVAL};
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pub use self::syscall::{
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data, error, flag, io, number, ptrace_event, EnvRegisters, FloatRegisters, IntRegisters,
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};
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pub use self::{fs::*, futex::futex, privilege::*, process::*, time::*, usercopy::validate_region};
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use self::{
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data::{Map, TimeSpec},
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error::{Error, Result, ENOSYS, EOVERFLOW},
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flag::{EventFlags, MapFlags},
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number::*,
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usercopy::UserSlice,
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};
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use crate::percpu::PercpuBlock;
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use crate::{
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context::memory::AddrSpace,
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scheme::{memory::MemoryScheme, FileHandle},
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};
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/// Debug
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pub mod debug;
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#[cfg(feature = "syscall_debug")]
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use self::debug::{debug_end, debug_start};
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/// Filesystem syscalls
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pub mod fs;
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/// Fast userspace mutex
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pub mod futex;
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/// Privilege syscalls
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pub mod privilege;
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/// Process syscalls
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pub mod process;
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/// Time syscalls
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pub mod time;
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/// Safely copying memory between user and kernel memory
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pub mod usercopy;
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/// This function is the syscall handler of the kernel, it is composed of an inner function that returns a `Result<usize>`. After the inner function runs, the syscall
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/// function calls [`Error::mux`] on it.
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#[must_use]
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pub fn syscall(a: usize, b: usize, c: usize, d: usize, e: usize, f: usize) -> usize {
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#[inline(always)]
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fn inner(a: usize, b: usize, c: usize, d: usize, e: usize, f: usize) -> Result<usize> {
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let fd = FileHandle::from(b);
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//SYS_* is declared in kernel/syscall/src/number.rs
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match a {
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SYS_WRITE2 => file_op_generic_ext(fd, |scheme, _, desc| {
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let flags = if f == usize::MAX {
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None
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} else {
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Some(
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u32::try_from(f)
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.ok()
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.and_then(RwFlags::from_bits)
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.ok_or(Error::new(EINVAL))?,
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)
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};
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scheme.kwriteoff(
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desc.number,
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UserSlice::ro(c, d)?,
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e as u64,
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flags.map_or(desc.flags, |f| desc.rw_flags(f)),
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desc.flags,
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)
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}),
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SYS_WRITE => sys_write(fd, UserSlice::ro(c, d)?),
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SYS_FMAP => {
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let addrspace = AddrSpace::current()?;
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let map = unsafe { UserSlice::ro(c, d)?.read_exact::<Map>()? };
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if b == !0 {
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MemoryScheme::fmap_anonymous(&addrspace, &map, false)
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} else {
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file_op_generic(fd, |scheme, number| {
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scheme.kfmap(number, &addrspace, &map, false)
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})
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}
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}
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SYS_GETDENTS => {
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let header_size = u16::try_from(e).map_err(|_| Error::new(EINVAL))?;
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if usize::from(header_size) != size_of::<DirentHeader>() {
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// TODO: allow? If so, zero_out must be implemented for UserSlice
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return Err(Error::new(EINVAL));
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}
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file_op_generic(fd, |scheme, number| {
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scheme.getdents(number, UserSlice::wo(c, d)?, header_size, f as u64)
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})
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}
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SYS_FUTIMENS => file_op_generic(fd, |scheme, number| {
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scheme.kfutimens(number, UserSlice::ro(c, d)?)
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}),
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SYS_READ2 => file_op_generic_ext(fd, |scheme, _, desc| {
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let flags = if f == usize::MAX {
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None
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} else {
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Some(
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u32::try_from(f)
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.ok()
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.and_then(RwFlags::from_bits)
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.ok_or(Error::new(EINVAL))?,
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)
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};
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scheme.kreadoff(
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desc.number,
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UserSlice::wo(c, d)?,
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e as u64,
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flags.map_or(desc.flags, |f| desc.rw_flags(f)),
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desc.flags,
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)
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}),
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SYS_READ => sys_read(fd, UserSlice::wo(c, d)?),
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SYS_FPATH => file_op_generic(fd, |scheme, number| {
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scheme.kfpath(number, UserSlice::wo(c, d)?)
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}),
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SYS_FSTAT => fstat(fd, UserSlice::wo(c, d)?).map(|()| 0),
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SYS_FSTATVFS => file_op_generic(fd, |scheme, number| {
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scheme.kfstatvfs(number, UserSlice::wo(c, d)?).map(|()| 0)
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}),
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SYS_DUP => dup(fd, UserSlice::ro(c, d)?).map(FileHandle::into),
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SYS_DUP2 => dup2(fd, FileHandle::from(c), UserSlice::ro(d, e)?).map(FileHandle::into),
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#[cfg(target_pointer_width = "32")]
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SYS_SENDFD => sendfd(fd, FileHandle::from(c), d, e as u64 | ((f as u64) << 32)),
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#[cfg(target_pointer_width = "64")]
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SYS_SENDFD => sendfd(fd, FileHandle::from(c), d, e as u64),
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SYS_LSEEK => lseek(fd, c as i64, d),
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SYS_FCHMOD => file_op_generic(fd, |scheme, number| {
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scheme.fchmod(number, c as u16).map(|()| 0)
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}),
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SYS_FCHOWN => file_op_generic(fd, |scheme, number| {
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scheme.fchown(number, c as u32, d as u32).map(|()| 0)
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}),
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SYS_FCNTL => fcntl(fd, c, d),
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SYS_FEVENT => file_op_generic(fd, |scheme, number| {
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Ok(scheme
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.fevent(number, EventFlags::from_bits_truncate(c))?
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.bits())
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}),
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SYS_FLINK => flink(fd, UserSlice::ro(c, d)?).map(|()| 0),
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SYS_FRENAME => frename(fd, UserSlice::ro(c, d)?).map(|()| 0),
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SYS_FUNMAP => funmap(b, c),
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SYS_FSYNC => file_op_generic(fd, |scheme, number| scheme.fsync(number).map(|()| 0)),
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// TODO: 64-bit lengths on 32-bit platforms
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SYS_FTRUNCATE => {
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file_op_generic(fd, |scheme, number| scheme.ftruncate(number, c).map(|()| 0))
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}
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SYS_CLOSE => close(fd).map(|()| 0),
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SYS_CALL => call(
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fd,
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UserSlice::rw(c, d)?,
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CallFlags::from_bits(e & !0xff).ok_or(Error::new(EINVAL))?,
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UserSlice::ro(f, (e & 0xff) * 8)?,
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),
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SYS_OPEN => open(UserSlice::ro(b, c)?, d).map(FileHandle::into),
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SYS_OPENAT => openat(fd, UserSlice::ro(c, d)?, e, f as _).map(FileHandle::into),
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SYS_RMDIR => rmdir(UserSlice::ro(b, c)?).map(|()| 0),
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SYS_UNLINK => unlink(UserSlice::ro(b, c)?).map(|()| 0),
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SYS_YIELD => sched_yield().map(|()| 0),
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SYS_NANOSLEEP => nanosleep(
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UserSlice::ro(b, core::mem::size_of::<TimeSpec>())?,
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UserSlice::wo(c, core::mem::size_of::<TimeSpec>())?.none_if_null(),
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)
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.map(|()| 0),
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SYS_CLOCK_GETTIME => {
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clock_gettime(b, UserSlice::wo(c, core::mem::size_of::<TimeSpec>())?).map(|()| 0)
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}
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SYS_FUTEX => futex(b, c, d, e, f),
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SYS_MPROTECT => mprotect(b, c, MapFlags::from_bits_truncate(d)).map(|()| 0),
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SYS_MKNS => mkns(UserSlice::ro(
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b,
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c.checked_mul(core::mem::size_of::<[usize; 2]>())
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.ok_or(Error::new(EOVERFLOW))?,
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)?),
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SYS_MREMAP => mremap(b, c, d, e, f),
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_ => return Err(Error::new(ENOSYS)),
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}
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}
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PercpuBlock::current().inside_syscall.set(true);
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#[cfg(feature = "syscall_debug")]
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debug_start([a, b, c, d, e, f]);
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let result = inner(a, b, c, d, e, f);
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#[cfg(feature = "syscall_debug")]
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debug_end([a, b, c, d, e, f], result);
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let percpu = PercpuBlock::current();
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percpu.inside_syscall.set(false);
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if percpu.switch_internals.being_sigkilled.get() {
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exit_this_context(None);
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}
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// errormux turns Result<usize> into -errno
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Error::mux(result)
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}
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