vendor/redox_syscall/src/call.rs - toolchain/rustc - Git at Google

 use super::arch::*;
 use super::data::{Map, SigAction, Stat, StatVfs, TimeSpec};
 use super::error::Result;
 use super::flag::*;
 use super::number::*;

 use core::{mem, ptr};

 // Signal restorer
 extern "C" fn restorer() -> ! {
     sigreturn().unwrap();
     unreachable!();
 }

 /// Close a file
 pub fn close(fd: usize) -> Result<usize> {
     unsafe { syscall1(SYS_CLOSE, fd) }
 }

 /// Get the current system time
 pub fn clock_gettime(clock: usize, tp: &mut TimeSpec) -> Result<usize> {
     unsafe { syscall2(SYS_CLOCK_GETTIME, clock, tp as *mut TimeSpec as usize) }
 }

 /// Copy and transform a file descriptor
 pub fn dup(fd: usize, buf: &[u8]) -> Result<usize> {
     unsafe { syscall3(SYS_DUP, fd, buf.as_ptr() as usize, buf.len()) }
 }

 /// Copy and transform a file descriptor
 pub fn dup2(fd: usize, newfd: usize, buf: &[u8]) -> Result<usize> {
     unsafe { syscall4(SYS_DUP2, fd, newfd, buf.as_ptr() as usize, buf.len()) }
 }

 /// Exit the current process
 pub fn exit(status: usize) -> Result<usize> {
     unsafe { syscall1(SYS_EXIT, status) }
 }

 /// Change file permissions
 pub fn fchmod(fd: usize, mode: u16) -> Result<usize> {
     unsafe { syscall2(SYS_FCHMOD, fd, mode as usize) }

 }

 /// Change file ownership
 pub fn fchown(fd: usize, uid: u32, gid: u32) -> Result<usize> {
     unsafe { syscall3(SYS_FCHOWN, fd, uid as usize, gid as usize) }

 }

 /// Change file descriptor flags
 pub fn fcntl(fd: usize, cmd: usize, arg: usize) -> Result<usize> {
     unsafe { syscall3(SYS_FCNTL, fd, cmd, arg) }
 }

 /// Map a file into memory, but with the ability to set the address to map into, either as a hint
 /// or as a requirement of the map.
 ///
 /// # Errors
 /// `EACCES` - the file descriptor was not open for reading
 /// `EBADF` - if the file descriptor was invalid
 /// `ENODEV` - mmapping was not supported
 /// `EINVAL` - invalid combination of flags
 /// `EEXIST` - if [`MapFlags::MAP_FIXED`] was set, and the address specified was already in use.
 ///
 pub unsafe fn fmap(fd: usize, map: &Map) -> Result<usize> {
     syscall3(SYS_FMAP, fd, map as *const Map as usize, mem::size_of::<Map>())
 }

 /// Unmap whole (or partial) continous memory-mapped files
 pub unsafe fn funmap(addr: usize, len: usize) -> Result<usize> {
     syscall2(SYS_FUNMAP, addr, len)
 }

 /// Retrieve the canonical path of a file
 pub fn fpath(fd: usize, buf: &mut [u8]) -> Result<usize> {
     unsafe { syscall3(SYS_FPATH, fd, buf.as_mut_ptr() as usize, buf.len()) }
 }

 /// Rename a file
 pub fn frename<T: AsRef<str>>(fd: usize, path: T) -> Result<usize> {
     unsafe { syscall3(SYS_FRENAME, fd, path.as_ref().as_ptr() as usize, path.as_ref().len()) }
 }

 /// Get metadata about a file
 pub fn fstat(fd: usize, stat: &mut Stat) -> Result<usize> {
     unsafe { syscall3(SYS_FSTAT, fd, stat as *mut Stat as usize, mem::size_of::<Stat>()) }
 }

 /// Get metadata about a filesystem
 pub fn fstatvfs(fd: usize, stat: &mut StatVfs) -> Result<usize> {
     unsafe { syscall3(SYS_FSTATVFS, fd, stat as *mut StatVfs as usize, mem::size_of::<StatVfs>()) }
 }

 /// Sync a file descriptor to its underlying medium
 pub fn fsync(fd: usize) -> Result<usize> {
     unsafe { syscall1(SYS_FSYNC, fd) }
 }

 /// Truncate or extend a file to a specified length
 pub fn ftruncate(fd: usize, len: usize) -> Result<usize> {
     unsafe { syscall2(SYS_FTRUNCATE, fd, len) }
 }

 // Change modify and/or access times
 pub fn futimens(fd: usize, times: &[TimeSpec]) -> Result<usize> {
     unsafe { syscall3(SYS_FUTIMENS, fd, times.as_ptr() as usize, times.len() * mem::size_of::<TimeSpec>()) }
 }

 /// Fast userspace mutex
 pub unsafe fn futex(addr: *mut i32, op: usize, val: i32, val2: usize, addr2: *mut i32)
                     -> Result<usize> {
     syscall5(SYS_FUTEX, addr as usize, op, (val as isize) as usize, val2, addr2 as usize)
 }

 /// Get the effective group ID
 pub fn getegid() -> Result<usize> {
     unsafe { syscall0(SYS_GETEGID) }
 }

 /// Get the effective namespace
 pub fn getens() -> Result<usize> {
     unsafe { syscall0(SYS_GETENS) }
 }

 /// Get the effective user ID
 pub fn geteuid() -> Result<usize> {
     unsafe { syscall0(SYS_GETEUID) }
 }

 /// Get the current group ID
 pub fn getgid() -> Result<usize> {
     unsafe { syscall0(SYS_GETGID) }
 }

 /// Get the current namespace
 pub fn getns() -> Result<usize> {
     unsafe { syscall0(SYS_GETNS) }
 }

 /// Get the current process ID
 pub fn getpid() -> Result<usize> {
     unsafe { syscall0(SYS_GETPID) }
 }

 /// Get the process group ID
 pub fn getpgid(pid: usize) -> Result<usize> {
     unsafe { syscall1(SYS_GETPGID, pid) }
 }

 /// Get the parent process ID
 pub fn getppid() -> Result<usize> {
     unsafe { syscall0(SYS_GETPPID) }
 }

 /// Get the current user ID
 pub fn getuid() -> Result<usize> {
     unsafe { syscall0(SYS_GETUID) }
 }

 /// Set the I/O privilege level
 ///
 /// # Errors
 ///
 /// * `EPERM` - `uid != 0`
 /// * `EINVAL` - `level > 3`
 pub unsafe fn iopl(level: usize) -> Result<usize> {
     syscall1(SYS_IOPL, level)
 }

 /// Send a signal `sig` to the process identified by `pid`
 pub fn kill(pid: usize, sig: usize) -> Result<usize> {
     unsafe { syscall2(SYS_KILL, pid, sig) }
 }

 /// Create a link to a file
 pub unsafe fn link(old: *const u8, new: *const u8) -> Result<usize> {
     syscall2(SYS_LINK, old as usize, new as usize)
 }

 /// Seek to `offset` bytes in a file descriptor
 pub fn lseek(fd: usize, offset: isize, whence: usize) -> Result<usize> {
     unsafe { syscall3(SYS_LSEEK, fd, offset as usize, whence) }
 }

 /// Make a new scheme namespace
 pub fn mkns(schemes: &[[usize; 2]]) -> Result<usize> {
     unsafe { syscall2(SYS_MKNS, schemes.as_ptr() as usize, schemes.len()) }
 }

 /// Change mapping flags
 pub unsafe fn mprotect(addr: usize, size: usize, flags: MapFlags) -> Result<usize> {
     syscall3(SYS_MPROTECT, addr, size, flags.bits())
 }

 /// Sleep for the time specified in `req`
 pub fn nanosleep(req: &TimeSpec, rem: &mut TimeSpec) -> Result<usize> {
     unsafe { syscall2(SYS_NANOSLEEP, req as *const TimeSpec as usize,
                                      rem as *mut TimeSpec as usize) }
 }

 /// Open a file
 pub fn open<T: AsRef<str>>(path: T, flags: usize) -> Result<usize> {
     unsafe { syscall3(SYS_OPEN, path.as_ref().as_ptr() as usize, path.as_ref().len(), flags) }
 }

 /// Allocate frames, linearly in physical memory.
 ///
 /// # Errors
 ///
 /// * `EPERM` - `uid != 0`
 /// * `ENOMEM` - the system has run out of available memory
 pub unsafe fn physalloc(size: usize) -> Result<usize> {
     syscall1(SYS_PHYSALLOC, size)
 }

 /// Allocate frames, linearly in physical memory, with an extra set of flags. If the flags contain
 /// [`PARTIAL_ALLOC`], this will result in `physalloc3` with `min = 1`.
 ///
 /// Refer to the simpler [`physalloc`] and the more complex [`physalloc3`], that this convenience
 /// function is based on.
 ///
 /// # Errors
 ///
 /// * `EPERM` - `uid != 0`
 /// * `ENOMEM` - the system has run out of available memory
 pub unsafe fn physalloc2(size: usize, flags: usize) -> Result<usize> {
     let mut ret = 1usize;
     physalloc3(size, flags, &mut ret)
 }

 /// Allocate frames, linearly in physical memory, with an extra set of flags. If the flags contain
 /// [`PARTIAL_ALLOC`], the `min` parameter specifies the number of frames that have to be allocated
 /// for this operation to succeed. The return value is the offset of the first frame, and `min` is
 /// overwritten with the number of frames actually allocated.
 ///
 /// Refer to the simpler [`physalloc`] and the simpler library function [`physalloc2`].
 ///
 /// # Errors
 ///
 /// * `EPERM` - `uid != 0`
 /// * `ENOMEM` - the system has run out of available memory
 /// * `EINVAL` - `min = 0`
 pub unsafe fn physalloc3(size: usize, flags: usize, min: &mut usize) -> Result<usize> {
     syscall3(SYS_PHYSALLOC3, size, flags, min as *mut usize as usize)
 }

 /// Free physically allocated pages
 ///
 /// # Errors
 ///
 /// * `EPERM` - `uid != 0`
 pub unsafe fn physfree(physical_address: usize, size: usize) -> Result<usize> {
     syscall2(SYS_PHYSFREE, physical_address, size)
 }

 /// Map physical memory to virtual memory
 ///
 /// # Errors
 ///
 /// * `EPERM` - `uid != 0`
 pub unsafe fn physmap(physical_address: usize, size: usize, flags: PhysmapFlags) -> Result<usize> {
     syscall3(SYS_PHYSMAP, physical_address, size, flags.bits())
 }

 /// Read from a file descriptor into a buffer
 pub fn read(fd: usize, buf: &mut [u8]) -> Result<usize> {
     unsafe { syscall3(SYS_READ, fd, buf.as_mut_ptr() as usize, buf.len()) }
 }

 /// Remove a directory
 pub fn rmdir<T: AsRef<str>>(path: T) -> Result<usize> {
     unsafe { syscall2(SYS_RMDIR, path.as_ref().as_ptr() as usize, path.as_ref().len()) }
 }

 /// Set the process group ID
 pub fn setpgid(pid: usize, pgid: usize) -> Result<usize> {
     unsafe { syscall2(SYS_SETPGID, pid, pgid) }
 }

 /// Set the current process group IDs
 pub fn setregid(rgid: usize, egid: usize) -> Result<usize> {
     unsafe { syscall2(SYS_SETREGID, rgid, egid) }
 }

 /// Make a new scheme namespace
 pub fn setrens(rns: usize, ens: usize) -> Result<usize> {
     unsafe { syscall2(SYS_SETRENS, rns, ens) }
 }

 /// Set the current process user IDs
 pub fn setreuid(ruid: usize, euid: usize) -> Result<usize> {
     unsafe { syscall2(SYS_SETREUID, ruid, euid) }
 }

 /// Set up a signal handler
 pub fn sigaction(sig: usize, act: Option<&SigAction>, oldact: Option<&mut SigAction>) -> Result<usize> {
     unsafe { syscall4(SYS_SIGACTION, sig,
                       act.map(|x| x as *const _).unwrap_or_else(ptr::null) as usize,
                       oldact.map(|x| x as *mut _).unwrap_or_else(ptr::null_mut) as usize,
                       restorer as usize) }
 }

 /// Get and/or set signal masks
 pub fn sigprocmask(how: usize, set: Option<&[u64; 2]>, oldset: Option<&mut [u64; 2]>) -> Result<usize> {
     unsafe { syscall3(SYS_SIGPROCMASK, how,
                       set.map(|x| x as *const _).unwrap_or_else(ptr::null) as usize,
                       oldset.map(|x| x as *mut _).unwrap_or_else(ptr::null_mut) as usize) }
 }

 // Return from signal handler
 pub fn sigreturn() -> Result<usize> {
     unsafe { syscall0(SYS_SIGRETURN) }
 }

 /// Set the file mode creation mask
 pub fn umask(mask: usize) -> Result<usize> {
     unsafe { syscall1(SYS_UMASK, mask) }
 }

 /// Remove a file
 pub fn unlink<T: AsRef<str>>(path: T) -> Result<usize> {
     unsafe { syscall2(SYS_UNLINK, path.as_ref().as_ptr() as usize, path.as_ref().len()) }
 }

 /// Convert a virtual address to a physical one
 ///
 /// # Errors
 ///
 /// * `EPERM` - `uid != 0`
 pub unsafe fn virttophys(virtual_address: usize) -> Result<usize> {
     syscall1(SYS_VIRTTOPHYS, virtual_address)
 }

 /// Check if a child process has exited or received a signal
 pub fn waitpid(pid: usize, status: &mut usize, options: WaitFlags) -> Result<usize> {
     unsafe { syscall3(SYS_WAITPID, pid, status as *mut usize as usize, options.bits()) }
 }

 /// Write a buffer to a file descriptor
 ///
 /// The kernel will attempt to write the bytes in `buf` to the file descriptor `fd`, returning
 /// either an `Err`, explained below, or `Ok(count)` where `count` is the number of bytes which
 /// were written.
 ///
 /// # Errors
 ///
 /// * `EAGAIN` - the file descriptor was opened with `O_NONBLOCK` and writing would block
 /// * `EBADF` - the file descriptor is not valid or is not open for writing
 /// * `EFAULT` - `buf` does not point to the process's addressible memory
 /// * `EIO` - an I/O error occurred
 /// * `ENOSPC` - the device containing the file descriptor has no room for data
 /// * `EPIPE` - the file descriptor refers to a pipe or socket whose reading end is closed
 pub fn write(fd: usize, buf: &[u8]) -> Result<usize> {
     unsafe { syscall3(SYS_WRITE, fd, buf.as_ptr() as usize, buf.len()) }
 }

 /// Yield the process's time slice to the kernel
 ///
 /// This function will return Ok(0) on success
 pub fn sched_yield() -> Result<usize> {
     unsafe { syscall0(SYS_YIELD) }
 }
	use super::arch::*;
	use super::data::{Map, SigAction, Stat, StatVfs, TimeSpec};
	use super::error::Result;
	use super::flag::*;
	use super::number::*;

	use core::{mem, ptr};

	// Signal restorer
	extern "C" fn restorer() -> ! {
	sigreturn().unwrap();
	unreachable!();
	}

	/// Close a file
	pub fn close(fd: usize) -> Result<usize> {
	unsafe { syscall1(SYS_CLOSE, fd) }
	}

	/// Get the current system time
	pub fn clock_gettime(clock: usize, tp: &mut TimeSpec) -> Result<usize> {
	unsafe { syscall2(SYS_CLOCK_GETTIME, clock, tp as *mut TimeSpec as usize) }
	}

	/// Copy and transform a file descriptor
	pub fn dup(fd: usize, buf: &[u8]) -> Result<usize> {
	unsafe { syscall3(SYS_DUP, fd, buf.as_ptr() as usize, buf.len()) }
	}

	/// Copy and transform a file descriptor
	pub fn dup2(fd: usize, newfd: usize, buf: &[u8]) -> Result<usize> {
	unsafe { syscall4(SYS_DUP2, fd, newfd, buf.as_ptr() as usize, buf.len()) }
	}

	/// Exit the current process
	pub fn exit(status: usize) -> Result<usize> {
	unsafe { syscall1(SYS_EXIT, status) }
	}

	/// Change file permissions
	pub fn fchmod(fd: usize, mode: u16) -> Result<usize> {
	unsafe { syscall2(SYS_FCHMOD, fd, mode as usize) }

	}

	/// Change file ownership
	pub fn fchown(fd: usize, uid: u32, gid: u32) -> Result<usize> {
	unsafe { syscall3(SYS_FCHOWN, fd, uid as usize, gid as usize) }

	}

	/// Change file descriptor flags
	pub fn fcntl(fd: usize, cmd: usize, arg: usize) -> Result<usize> {
	unsafe { syscall3(SYS_FCNTL, fd, cmd, arg) }
	}

	/// Map a file into memory, but with the ability to set the address to map into, either as a hint
	/// or as a requirement of the map.
	///
	/// # Errors
	/// `EACCES` - the file descriptor was not open for reading
	/// `EBADF` - if the file descriptor was invalid
	/// `ENODEV` - mmapping was not supported
	/// `EINVAL` - invalid combination of flags
	/// `EEXIST` - if [`MapFlags::MAP_FIXED`] was set, and the address specified was already in use.
	///
	pub unsafe fn fmap(fd: usize, map: &Map) -> Result<usize> {
	syscall3(SYS_FMAP, fd, map as *const Map as usize, mem::size_of::<Map>())
	}

	/// Unmap whole (or partial) continous memory-mapped files
	pub unsafe fn funmap(addr: usize, len: usize) -> Result<usize> {
	syscall2(SYS_FUNMAP, addr, len)
	}

	/// Retrieve the canonical path of a file
	pub fn fpath(fd: usize, buf: &mut [u8]) -> Result<usize> {
	unsafe { syscall3(SYS_FPATH, fd, buf.as_mut_ptr() as usize, buf.len()) }
	}

	/// Rename a file
	pub fn frename<T: AsRef<str>>(fd: usize, path: T) -> Result<usize> {
	unsafe { syscall3(SYS_FRENAME, fd, path.as_ref().as_ptr() as usize, path.as_ref().len()) }
	}

	/// Get metadata about a file
	pub fn fstat(fd: usize, stat: &mut Stat) -> Result<usize> {
	unsafe { syscall3(SYS_FSTAT, fd, stat as *mut Stat as usize, mem::size_of::<Stat>()) }
	}

	/// Get metadata about a filesystem
	pub fn fstatvfs(fd: usize, stat: &mut StatVfs) -> Result<usize> {
	unsafe { syscall3(SYS_FSTATVFS, fd, stat as *mut StatVfs as usize, mem::size_of::<StatVfs>()) }
	}

	/// Sync a file descriptor to its underlying medium
	pub fn fsync(fd: usize) -> Result<usize> {
	unsafe { syscall1(SYS_FSYNC, fd) }
	}

	/// Truncate or extend a file to a specified length
	pub fn ftruncate(fd: usize, len: usize) -> Result<usize> {
	unsafe { syscall2(SYS_FTRUNCATE, fd, len) }
	}

	// Change modify and/or access times
	pub fn futimens(fd: usize, times: &[TimeSpec]) -> Result<usize> {
	unsafe { syscall3(SYS_FUTIMENS, fd, times.as_ptr() as usize, times.len() * mem::size_of::<TimeSpec>()) }
	}

	/// Fast userspace mutex
	pub unsafe fn futex(addr: mut i32, op: usize, val: i32, val2: usize, addr2: mut i32)
	-> Result<usize> {
	syscall5(SYS_FUTEX, addr as usize, op, (val as isize) as usize, val2, addr2 as usize)
	}

	/// Get the effective group ID
	pub fn getegid() -> Result<usize> {
	unsafe { syscall0(SYS_GETEGID) }
	}

	/// Get the effective namespace
	pub fn getens() -> Result<usize> {
	unsafe { syscall0(SYS_GETENS) }
	}

	/// Get the effective user ID
	pub fn geteuid() -> Result<usize> {
	unsafe { syscall0(SYS_GETEUID) }
	}

	/// Get the current group ID
	pub fn getgid() -> Result<usize> {
	unsafe { syscall0(SYS_GETGID) }
	}

	/// Get the current namespace
	pub fn getns() -> Result<usize> {
	unsafe { syscall0(SYS_GETNS) }
	}

	/// Get the current process ID
	pub fn getpid() -> Result<usize> {
	unsafe { syscall0(SYS_GETPID) }
	}

	/// Get the process group ID
	pub fn getpgid(pid: usize) -> Result<usize> {
	unsafe { syscall1(SYS_GETPGID, pid) }
	}

	/// Get the parent process ID
	pub fn getppid() -> Result<usize> {
	unsafe { syscall0(SYS_GETPPID) }
	}

	/// Get the current user ID
	pub fn getuid() -> Result<usize> {
	unsafe { syscall0(SYS_GETUID) }
	}

	/// Set the I/O privilege level
	///
	/// # Errors
	///
	/// * `EPERM` - `uid != 0`
	/// * `EINVAL` - `level > 3`
	pub unsafe fn iopl(level: usize) -> Result<usize> {
	syscall1(SYS_IOPL, level)
	}

	/// Send a signal `sig` to the process identified by `pid`
	pub fn kill(pid: usize, sig: usize) -> Result<usize> {
	unsafe { syscall2(SYS_KILL, pid, sig) }
	}

	/// Create a link to a file
	pub unsafe fn link(old: const u8, new: const u8) -> Result<usize> {
	syscall2(SYS_LINK, old as usize, new as usize)
	}

	/// Seek to `offset` bytes in a file descriptor
	pub fn lseek(fd: usize, offset: isize, whence: usize) -> Result<usize> {
	unsafe { syscall3(SYS_LSEEK, fd, offset as usize, whence) }
	}

	/// Make a new scheme namespace
	pub fn mkns(schemes: &[[usize; 2]]) -> Result<usize> {
	unsafe { syscall2(SYS_MKNS, schemes.as_ptr() as usize, schemes.len()) }
	}

	/// Change mapping flags
	pub unsafe fn mprotect(addr: usize, size: usize, flags: MapFlags) -> Result<usize> {
	syscall3(SYS_MPROTECT, addr, size, flags.bits())
	}

	/// Sleep for the time specified in `req`
	pub fn nanosleep(req: &TimeSpec, rem: &mut TimeSpec) -> Result<usize> {
	unsafe { syscall2(SYS_NANOSLEEP, req as *const TimeSpec as usize,
	rem as *mut TimeSpec as usize) }
	}

	/// Open a file
	pub fn open<T: AsRef<str>>(path: T, flags: usize) -> Result<usize> {
	unsafe { syscall3(SYS_OPEN, path.as_ref().as_ptr() as usize, path.as_ref().len(), flags) }
	}

	/// Allocate frames, linearly in physical memory.
	///
	/// # Errors
	///
	/// * `EPERM` - `uid != 0`
	/// * `ENOMEM` - the system has run out of available memory
	pub unsafe fn physalloc(size: usize) -> Result<usize> {
	syscall1(SYS_PHYSALLOC, size)
	}

	/// Allocate frames, linearly in physical memory, with an extra set of flags. If the flags contain
	/// [`PARTIAL_ALLOC`], this will result in `physalloc3` with `min = 1`.
	///
	/// Refer to the simpler [`physalloc`] and the more complex [`physalloc3`], that this convenience
	/// function is based on.
	///
	/// # Errors
	///
	/// * `EPERM` - `uid != 0`
	/// * `ENOMEM` - the system has run out of available memory
	pub unsafe fn physalloc2(size: usize, flags: usize) -> Result<usize> {
	let mut ret = 1usize;
	physalloc3(size, flags, &mut ret)
	}

	/// Allocate frames, linearly in physical memory, with an extra set of flags. If the flags contain
	/// [`PARTIAL_ALLOC`], the `min` parameter specifies the number of frames that have to be allocated
	/// for this operation to succeed. The return value is the offset of the first frame, and `min` is
	/// overwritten with the number of frames actually allocated.
	///
	/// Refer to the simpler [`physalloc`] and the simpler library function [`physalloc2`].
	///
	/// # Errors
	///
	/// * `EPERM` - `uid != 0`
	/// * `ENOMEM` - the system has run out of available memory
	/// * `EINVAL` - `min = 0`
	pub unsafe fn physalloc3(size: usize, flags: usize, min: &mut usize) -> Result<usize> {
	syscall3(SYS_PHYSALLOC3, size, flags, min as *mut usize as usize)
	}

	/// Free physically allocated pages
	///
	/// # Errors
	///
	/// * `EPERM` - `uid != 0`
	pub unsafe fn physfree(physical_address: usize, size: usize) -> Result<usize> {
	syscall2(SYS_PHYSFREE, physical_address, size)
	}

	/// Map physical memory to virtual memory
	///
	/// # Errors
	///
	/// * `EPERM` - `uid != 0`
	pub unsafe fn physmap(physical_address: usize, size: usize, flags: PhysmapFlags) -> Result<usize> {
	syscall3(SYS_PHYSMAP, physical_address, size, flags.bits())
	}

	/// Read from a file descriptor into a buffer
	pub fn read(fd: usize, buf: &mut [u8]) -> Result<usize> {
	unsafe { syscall3(SYS_READ, fd, buf.as_mut_ptr() as usize, buf.len()) }
	}

	/// Remove a directory
	pub fn rmdir<T: AsRef<str>>(path: T) -> Result<usize> {
	unsafe { syscall2(SYS_RMDIR, path.as_ref().as_ptr() as usize, path.as_ref().len()) }
	}

	/// Set the process group ID
	pub fn setpgid(pid: usize, pgid: usize) -> Result<usize> {
	unsafe { syscall2(SYS_SETPGID, pid, pgid) }
	}

	/// Set the current process group IDs
	pub fn setregid(rgid: usize, egid: usize) -> Result<usize> {
	unsafe { syscall2(SYS_SETREGID, rgid, egid) }
	}

	/// Make a new scheme namespace
	pub fn setrens(rns: usize, ens: usize) -> Result<usize> {
	unsafe { syscall2(SYS_SETRENS, rns, ens) }
	}

	/// Set the current process user IDs
	pub fn setreuid(ruid: usize, euid: usize) -> Result<usize> {
	unsafe { syscall2(SYS_SETREUID, ruid, euid) }
	}

	/// Set up a signal handler
	pub fn sigaction(sig: usize, act: Option<&SigAction>, oldact: Option<&mut SigAction>) -> Result<usize> {
	unsafe { syscall4(SYS_SIGACTION, sig,
	act.map(\|x\| x as *const _).unwrap_or_else(ptr::null) as usize,
	oldact.map(\|x\| x as *mut _).unwrap_or_else(ptr::null_mut) as usize,
	restorer as usize) }
	}

	/// Get and/or set signal masks
	pub fn sigprocmask(how: usize, set: Option<&[u64; 2]>, oldset: Option<&mut [u64; 2]>) -> Result<usize> {
	unsafe { syscall3(SYS_SIGPROCMASK, how,
	set.map(\|x\| x as *const _).unwrap_or_else(ptr::null) as usize,
	oldset.map(\|x\| x as *mut _).unwrap_or_else(ptr::null_mut) as usize) }
	}

	// Return from signal handler
	pub fn sigreturn() -> Result<usize> {
	unsafe { syscall0(SYS_SIGRETURN) }
	}

	/// Set the file mode creation mask
	pub fn umask(mask: usize) -> Result<usize> {
	unsafe { syscall1(SYS_UMASK, mask) }
	}

	/// Remove a file
	pub fn unlink<T: AsRef<str>>(path: T) -> Result<usize> {
	unsafe { syscall2(SYS_UNLINK, path.as_ref().as_ptr() as usize, path.as_ref().len()) }
	}

	/// Convert a virtual address to a physical one
	///
	/// # Errors
	///
	/// * `EPERM` - `uid != 0`
	pub unsafe fn virttophys(virtual_address: usize) -> Result<usize> {
	syscall1(SYS_VIRTTOPHYS, virtual_address)
	}

	/// Check if a child process has exited or received a signal
	pub fn waitpid(pid: usize, status: &mut usize, options: WaitFlags) -> Result<usize> {
	unsafe { syscall3(SYS_WAITPID, pid, status as *mut usize as usize, options.bits()) }
	}

	/// Write a buffer to a file descriptor
	///
	/// The kernel will attempt to write the bytes in `buf` to the file descriptor `fd`, returning
	/// either an `Err`, explained below, or `Ok(count)` where `count` is the number of bytes which
	/// were written.
	///
	/// # Errors
	///
	/// * `EAGAIN` - the file descriptor was opened with `O_NONBLOCK` and writing would block
	/// * `EBADF` - the file descriptor is not valid or is not open for writing
	/// * `EFAULT` - `buf` does not point to the process's addressible memory
	/// * `EIO` - an I/O error occurred
	/// * `ENOSPC` - the device containing the file descriptor has no room for data
	/// * `EPIPE` - the file descriptor refers to a pipe or socket whose reading end is closed
	pub fn write(fd: usize, buf: &[u8]) -> Result<usize> {
	unsafe { syscall3(SYS_WRITE, fd, buf.as_ptr() as usize, buf.len()) }
	}

	/// Yield the process's time slice to the kernel
	///
	/// This function will return Ok(0) on success
	pub fn sched_yield() -> Result<usize> {
	unsafe { syscall0(SYS_YIELD) }
	}