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//! Syscalls for process
use super::*;
/// Fork the current process. Return the child's PID.
pub fn sys_fork(tf: &TrapFrame) -> SysResult {
let context = current_thread().fork(tf);
let pid = processor().manager().add(context, thread::current().id());
info!("fork: {} -> {}", thread::current().id(), pid);
Ok(pid as isize)
}
/// Wait the process exit.
/// Return the PID. Store exit code to `code` if it's not null.
pub fn sys_wait(pid: usize, code: *mut i32) -> SysResult {
// TODO: check ptr
loop {
use alloc::vec;
let wait_procs = match pid {
0 => processor().manager().get_children(thread::current().id()),
_ => vec![pid],
};
if wait_procs.is_empty() {
return Ok(-1);
}
for pid in wait_procs {
match processor().manager().get_status(pid) {
Some(Status::Exited(exit_code)) => {
if !code.is_null() {
unsafe { code.write(exit_code as i32); }
}
processor().manager().remove(pid);
info!("wait: {} -> {}", thread::current().id(), pid);
return Ok(0);
}
None => return Ok(-1),
_ => {}
}
}
info!("wait: {} -> {}, sleep", thread::current().id(), pid);
if pid == 0 {
processor().manager().wait_child(thread::current().id());
processor().yield_now();
} else {
processor().manager().wait(thread::current().id(), pid);
processor().yield_now();
}
}
}
pub fn sys_exec(name: *const u8, argc: usize, argv: *const *const u8, tf: &mut TrapFrame) -> SysResult {
// TODO: check ptr
let name = if name.is_null() { "" } else { unsafe { util::from_cstr(name) } };
info!("exec: {:?}, argc: {}, argv: {:?}", name, argc, argv);
// Copy args to kernel
let args: Vec<String> = unsafe {
slice::from_raw_parts(argv, argc).iter()
.map(|&arg| String::from(util::from_cstr(arg)))
.collect()
};
if args.len() <= 0 {
return Err(SysError::Inval);
}
// Read program file
let path = args[0].as_str();
let inode = crate::fs::ROOT_INODE.lookup(path)?;
let size = inode.metadata()?.size;
let mut buf = Vec::with_capacity(size);
unsafe { buf.set_len(size); }
inode.read_at(0, buf.as_mut_slice())?;
// Make new Thread
let iter = args.iter().map(|s| s.as_str());
let mut thread = Thread::new_user(buf.as_slice(), iter);
// Activate new page table
unsafe { thread.proc.lock().memory_set.activate(); }
// Modify the TrapFrame
*tf = unsafe { thread.context.get_init_tf() };
// Swap Context but keep KStack
::core::mem::swap(&mut current_thread().kstack, &mut thread.kstack);
::core::mem::swap(current_thread(), &mut *thread);
Ok(0)
}
pub fn sys_yield() -> SysResult {
thread::yield_now();
Ok(0)
}
/// Kill the process
pub fn sys_kill(pid: usize) -> SysResult {
info!("{} killed: {}", thread::current().id(), pid);
processor().manager().exit(pid, 0x100);
if pid == thread::current().id() {
processor().yield_now();
}
Ok(0)
}
/// Get the current process id
pub fn sys_getpid() -> SysResult {
Ok(thread::current().id() as isize)
}
/// Exit the current process
pub fn sys_exit(exit_code: isize) -> SysResult {
let pid = thread::current().id();
info!("exit: {}, code: {}", pid, exit_code);
processor().manager().exit(pid, exit_code as usize);
processor().yield_now();
unreachable!();
}
pub fn sys_sleep(time: usize) -> SysResult {
if time >= 1 << 31 {
thread::park();
} else {
use core::time::Duration;
thread::sleep(Duration::from_millis(time as u64 * 10));
}
Ok(0)
}
pub fn sys_set_priority(priority: usize) -> SysResult {
let pid = thread::current().id();
processor().manager().set_priority(pid, priority as u8);
Ok(0)
}