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//! Syscalls for file system
use rcore_fs::vfs::Timespec;
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use crate::fs::*;
use crate::memory::MemorySet;
use super::*;
use super::net::*;
pub fn sys_read(fd: usize, base: *mut u8, len: usize) -> SysResult {
info!("read: fd: {}, base: {:?}, len: {:#x}", fd, base, len);
let mut proc = process();
if !proc.memory_set.check_mut_array(base, len) {
return Err(SysError::EINVAL);
}
let slice = unsafe { slice::from_raw_parts_mut(base, len) };
let len = get_file(&mut proc, fd)?.read(slice)?;
Ok(len as isize)
}
pub fn sys_write(fd: usize, base: *const u8, len: usize) -> SysResult {
info!("write: fd: {}, base: {:?}, len: {:#x}", fd, base, len);
let mut proc = process();
if !proc.memory_set.check_array(base, len) {
return Err(SysError::EINVAL);
}
match proc.files.get(&fd) {
Some(FileLike::File(_)) => sys_write_file(&mut proc, fd, base, len),
Some(FileLike::Socket(_)) => sys_write_socket(&mut proc, fd, base, len),
None => Err(SysError::EINVAL)
}
}
pub fn sys_write_file(proc: &mut MutexGuard<'static, Process>, fd: usize, base: *const u8, len: usize) -> SysResult {
let slice = unsafe { slice::from_raw_parts(base, len) };
let len = get_file(proc, fd)?.write(slice)?;
Ok(len as isize)
}
pub fn sys_readv(fd: usize, iov_ptr: *const IoVec, iov_count: usize) -> SysResult {
let mut proc = process();
let mut iovs = IoVecs::check_and_new(iov_ptr, iov_count, &proc.memory_set, true)?;
info!("readv: fd: {}, iov: {:#x?}", fd, iovs);
// read all data to a buf
let file = get_file(&mut proc, fd)?;
let mut buf = iovs.new_buf(true);
let len = file.read(buf.as_mut_slice())?;
// copy data to user
iovs.write_all_from_slice(&buf[..len]);
Ok(len as isize)
}
pub fn sys_writev(fd: usize, iov_ptr: *const IoVec, iov_count: usize) -> SysResult {
let mut proc = process();
let iovs = IoVecs::check_and_new(iov_ptr, iov_count, &proc.memory_set, false)?;
info!("writev: fd: {}, iovs: {:#x?}", fd, iovs);
let file = get_file(&mut proc, fd)?;
let buf = iovs.read_all_to_vec();
let len = file.write(buf.as_slice())?;
Ok(len as isize)
}
pub fn sys_open(path: *const u8, flags: usize, mode: usize) -> SysResult {
let mut proc = process();
let path = unsafe { proc.memory_set.check_and_clone_cstr(path) }
.ok_or(SysError::EINVAL)?;
let flags = OpenFlags::from_bits_truncate(flags);
info!("open: path: {:?}, flags: {:?}, mode: {:#o}", path, flags, mode);
let inode =
if flags.contains(OpenFlags::CREATE) {
// FIXME: assume path start from root now
let mut split = path.as_str().rsplitn(2, '/');
let file_name = split.next().unwrap();
let dir_path = split.next().unwrap_or(".");
let dir_inode = ROOT_INODE.lookup(dir_path)?;
match dir_inode.find(file_name) {
Ok(file_inode) => {
if flags.contains(OpenFlags::EXCLUSIVE) {
return Err(SysError::EEXIST);
}
file_inode
},
Err(FsError::EntryNotFound) => {
dir_inode.create(file_name, FileType::File, mode as u32)?
}
Err(e) => return Err(SysError::from(e)),
}
} else {
// TODO: remove "stdin:" "stdout:"
match path.as_str() {
"stdin:" => crate::fs::STDIN.clone() as Arc<INode>,
"stdout:" => crate::fs::STDOUT.clone() as Arc<INode>,
_ => ROOT_INODE.lookup(path.as_str())?,
}
};
let fd = proc.get_free_inode();
let file = FileHandle::new(inode, flags.to_options());
proc.files.insert(fd, FileLike::File(file));
Ok(fd as isize)
}
pub fn sys_close(fd: usize) -> SysResult {
info!("close: fd: {:?}", fd);
match process().files.remove(&fd) {
Some(_) => Ok(0),
None => Err(SysError::EINVAL),
}
}
pub fn sys_stat(path: *const u8, stat_ptr: *mut Stat) -> SysResult {
let mut proc = process();
let path = unsafe { proc.memory_set.check_and_clone_cstr(path) }
.ok_or(SysError::EINVAL)?;
if !proc.memory_set.check_mut_ptr(stat_ptr) {
return Err(SysError::EINVAL);
}
info!("stat: path: {}", path);
let inode = ROOT_INODE.lookup(path.as_str())?;
let stat = Stat::from(inode.metadata()?);
unsafe { stat_ptr.write(stat); }
Ok(0)
}
pub fn sys_fstat(fd: usize, stat_ptr: *mut Stat) -> SysResult {
info!("fstat: fd: {}", fd);
let mut proc = process();
if !proc.memory_set.check_mut_ptr(stat_ptr) {
return Err(SysError::EINVAL);
}
let file = get_file(&mut proc, fd)?;
let stat = Stat::from(file.info()?);
unsafe { stat_ptr.write(stat); }
Ok(0)
}
6 years ago
pub fn sys_lseek(fd: usize, offset: i64, whence: u8) -> SysResult {
let pos = match whence {
SEEK_SET => SeekFrom::Start(offset as u64),
SEEK_END => SeekFrom::End(offset),
SEEK_CUR => SeekFrom::Current(offset),
_ => return Err(SysError::EINVAL),
6 years ago
};
info!("lseek: fd: {}, pos: {:?}", fd, pos);
let mut proc = process();
let file = get_file(&mut proc, fd)?;
let offset = file.seek(pos)?;
Ok(offset as isize)
}
/// entry_id = dentry.offset / 256
/// dentry.name = entry_name
/// dentry.offset += 256
pub fn sys_getdirentry(fd: usize, dentry_ptr: *mut DirEntry) -> SysResult {
info!("getdirentry: {}", fd);
let mut proc = process();
if !proc.memory_set.check_mut_ptr(dentry_ptr) {
return Err(SysError::EINVAL);
}
let file = get_file(&mut proc, fd)?;
let dentry = unsafe { &mut *dentry_ptr };
if !dentry.check() {
return Err(SysError::EINVAL);
}
let info = file.info()?;
if info.type_ != FileType::Dir || info.size <= dentry.entry_id() {
return Err(SysError::EINVAL);
}
let name = file.get_entry(dentry.entry_id())?;
dentry.set_name(name.as_str());
Ok(0)
}
pub fn sys_dup2(fd1: usize, fd2: usize) -> SysResult {
info!("dup2: {} {}", fd1, fd2);
let mut proc = process();
if proc.files.contains_key(&fd2) {
return Err(SysError::EINVAL);
}
let file = get_file(&mut proc, fd1)?.clone();
proc.files.insert(fd2, FileLike::File(file));
Ok(0)
}
fn get_file<'a>(proc: &'a mut MutexGuard<'static, Process>, fd: usize) -> Result<&'a mut FileHandle, SysError> {
proc.files.get_mut(&fd).ok_or(SysError::EINVAL).and_then(|f| {
match f {
FileLike::File(file) => Ok(file),
_ => Err(SysError::EINVAL)
}
})
}
impl From<FsError> for SysError {
fn from(error: FsError) -> Self {
match error {
FsError::NotSupported => SysError::ENOSYS,
FsError::NotFile => SysError::EISDIR,
FsError::IsDir => SysError::EISDIR,
FsError::NotDir => SysError::ENOTDIR,
FsError::EntryNotFound => SysError::ENOENT,
FsError::EntryExist => SysError::EEXIST,
FsError::NotSameFs => SysError::EXDEV,
FsError::InvalidParam => SysError::EINVAL,
FsError::NoDeviceSpace => SysError::ENOMEM,
FsError::DirRemoved => SysError::ENOENT,
FsError::DirNotEmpty => SysError::ENOTEMPTY,
FsError::WrongFs => SysError::EINVAL,
FsError::DeviceError => SysError::EIO,
}
}
}
bitflags! {
struct OpenFlags: usize {
/// read only
const RDONLY = 0;
/// write only
const WRONLY = 1;
/// read write
const RDWR = 2;
/// create file if it does not exist
const CREATE = 1 << 6;
/// error if CREATE and the file exists
const EXCLUSIVE = 1 << 7;
/// truncate file upon open
const TRUNCATE = 1 << 9;
/// append on each write
const APPEND = 1 << 10;
}
}
impl OpenFlags {
fn readable(&self) -> bool {
let b = self.bits() & 0b11;
b == OpenFlags::RDONLY.bits() || b == OpenFlags::RDWR.bits()
}
fn writable(&self) -> bool {
let b = self.bits() & 0b11;
b == OpenFlags::WRONLY.bits() || b == OpenFlags::RDWR.bits()
}
fn to_options(&self) -> OpenOptions {
OpenOptions {
read: self.readable(),
write: self.writable(),
append: self.contains(OpenFlags::APPEND),
}
}
}
#[repr(C)]
pub struct DirEntry {
offset: u32,
name: [u8; 256],
}
impl DirEntry {
fn check(&self) -> bool {
self.offset % 256 == 0
}
fn entry_id(&self) -> usize {
(self.offset / 256) as usize
}
fn set_name(&mut self, name: &str) {
self.name[..name.len()].copy_from_slice(name.as_bytes());
self.name[name.len()] = 0;
self.offset += 256;
}
}
#[repr(C)]
pub struct Stat {
/// ID of device containing file
dev: u64,
/// inode number
ino: u64,
/// number of hard links
nlink: u64,
/// file type and mode
mode: StatMode,
/// user ID of owner
uid: u32,
/// group ID of owner
gid: u32,
/// padding
_pad0: u32,
/// device ID (if special file)
rdev: u64,
/// total size, in bytes
size: u64,
/// blocksize for filesystem I/O
blksize: u64,
/// number of 512B blocks allocated
blocks: u64,
/// last access time
atime: Timespec,
/// last modification time
mtime: Timespec,
/// last status change time
ctime: Timespec,
}
bitflags! {
pub struct StatMode: u32 {
const NULL = 0;
/// Type
const TYPE_MASK = 0o170000;
/// FIFO
const FIFO = 0o010000;
/// character device
const CHAR = 0o020000;
/// directory
const DIR = 0o040000;
/// block device
const BLOCK = 0o060000;
/// ordinary regular file
const FILE = 0o100000;
/// symbolic link
const LINK = 0o120000;
/// socket
const SOCKET = 0o140000;
/// Set-user-ID on execution.
const SET_UID = 0o4000;
/// Set-group-ID on execution.
const SET_GID = 0o2000;
/// Read, write, execute/search by owner.
const OWNER_MASK = 0o700;
/// Read permission, owner.
const OWNER_READ = 0o400;
/// Write permission, owner.
const OWNER_WRITE = 0o200;
/// Execute/search permission, owner.
const OWNER_EXEC = 0o100;
/// Read, write, execute/search by group.
const GROUP_MASK = 0o70;
/// Read permission, group.
const GROUP_READ = 0o40;
/// Write permission, group.
const GROUP_WRITE = 0o20;
/// Execute/search permission, group.
const GROUP_EXEC = 0o10;
/// Read, write, execute/search by others.
const OTHER_MASK = 0o7;
/// Read permission, others.
const OTHER_READ = 0o4;
/// Write permission, others.
const OTHER_WRITE = 0o2;
/// Execute/search permission, others.
const OTHER_EXEC = 0o1;
}
}
impl StatMode {
fn from_type_mode(type_: FileType, mode: u16) -> Self {
let type_ = match type_ {
FileType::File => StatMode::FILE,
FileType::Dir => StatMode::DIR,
FileType::SymLink => StatMode::LINK,
FileType::CharDevice => StatMode::CHAR,
FileType::BlockDevice => StatMode::BLOCK,
FileType::Socket => StatMode::SOCKET,
FileType::NamedPipe => StatMode::FIFO,
_ => StatMode::NULL,
};
let mode = StatMode::from_bits_truncate(mode as u32);
type_ | mode
}
}
impl From<Metadata> for Stat {
fn from(info: Metadata) -> Self {
Stat {
dev: info.dev as u64,
ino: info.inode as u64,
mode: StatMode::from_type_mode(info.type_, info.mode as u16),
nlink: info.nlinks as u64,
uid: info.uid as u32,
gid: info.gid as u32,
rdev: 0,
size: info.size as u64,
blksize: info.blk_size as u64,
blocks: info.blocks as u64,
atime: info.atime,
mtime: info.mtime,
ctime: info.ctime,
_pad0: 0
}
}
}
6 years ago
const SEEK_SET: u8 = 1;
const SEEK_CUR: u8 = 2;
const SEEK_END: u8 = 4;
#[derive(Debug, Copy, Clone)]
#[repr(C)]
pub struct IoVec {
/// Starting address
base: *mut u8,
/// Number of bytes to transfer
len: u64,
}
/// A valid IoVecs request from user
#[derive(Debug)]
struct IoVecs(Vec<&'static mut [u8]>);
impl IoVecs {
fn check_and_new(iov_ptr: *const IoVec, iov_count: usize, vm: &MemorySet, readv: bool) -> Result<Self, SysError> {
if !vm.check_array(iov_ptr, iov_count) {
return Err(SysError::EINVAL);
}
let iovs = unsafe { slice::from_raw_parts(iov_ptr, iov_count) }.to_vec();
// check all bufs in iov
for iov in iovs.iter() {
if readv && !vm.check_mut_array(iov.base, iov.len as usize)
|| !readv && !vm.check_array(iov.base, iov.len as usize) {
return Err(SysError::EINVAL);
}
}
let slices = iovs.iter().map(|iov| unsafe { slice::from_raw_parts_mut(iov.base, iov.len as usize) }).collect();
Ok(IoVecs(slices))
}
fn read_all_to_vec(&self) -> Vec<u8> {
let mut buf = self.new_buf(false);
for slice in self.0.iter() {
buf.extend(slice.iter());
}
buf
}
fn write_all_from_slice(&mut self, buf: &[u8]) {
let mut copied_len = 0;
for slice in self.0.iter_mut() {
slice.copy_from_slice(&buf[copied_len..copied_len + slice.len()]);
copied_len += slice.len();
}
}
/// Create a new Vec buffer from IoVecs
/// For readv: `set_len` is true, Vec.len = total_len.
/// For writev: `set_len` is false, Vec.cap = total_len.
fn new_buf(&self, set_len: bool) -> Vec<u8> {
let total_len = self.0.iter().map(|slice| slice.len()).sum::<usize>();
let mut buf = Vec::with_capacity(total_len);
if set_len {
unsafe { buf.set_len(total_len); }
}
buf
}
}