//! 系统调用解析执行模块 #![allow(unused)] use arch::interrupt::TrapFrame; use process::*; use thread; use util; /// 系统调用入口点 /// /// 当发生系统调用中断时,中断服务例程将控制权转移到这里。 pub fn syscall(id: usize, args: [usize; 6], tf: &TrapFrame) -> i32 { match id { SYS_WRITE => sys_write(args[0], args[1] as *const u8, args[2]), SYS_OPEN => sys_open(args[0] as *const u8, args[1]), SYS_CLOSE => sys_close(args[0]), SYS_WAIT => sys_wait(args[0], args[1] as *mut i32), SYS_FORK => sys_fork(tf), SYS_KILL => sys_kill(args[0]), SYS_EXIT => sys_exit(args[0]), SYS_YIELD => sys_yield(), SYS_GETPID => sys_getpid(), SYS_SLEEP => sys_sleep(args[0]), SYS_GETTIME => sys_get_time(), SYS_LAB6_SET_PRIORITY => sys_lab6_set_priority(args[0]), SYS_PUTC => sys_putc(args[0] as u8 as char), _ => { error!("unknown syscall id: {:#x?}, args: {:x?}", id, args); ::trap::error(tf); } } } fn sys_write(fd: usize, base: *const u8, len: usize) -> i32 { info!("write: fd: {}, base: {:?}, len: {:#x}", fd, base, len); use core::slice; use core::str; let slice = unsafe { slice::from_raw_parts(base, len) }; print!("{}", str::from_utf8(slice).unwrap()); 0 } fn sys_open(path: *const u8, flags: usize) -> i32 { let path = unsafe { util::from_cstr(path) }; info!("open: path: {:?}, flags: {:?}", path, flags); match path { "stdin:" => 0, "stdout:" => 1, _ => -1, } } fn sys_close(fd: usize) -> i32 { info!("close: fd: {:?}", fd); 0 } /// Fork the current process. Return the child's PID. fn sys_fork(tf: &TrapFrame) -> i32 { unimplemented!(); } /// Wait the process exit. /// Return the PID. Store exit code to `code` if it's not null. fn sys_wait(pid: usize, code: *mut i32) -> i32 { unimplemented!(); } fn sys_yield() -> i32 { thread::yield_now(); 0 } /// Kill the process fn sys_kill(pid: usize) -> i32 { processor().manager().set_status(pid, Status::Exited(0x100)); 0 } /// Get the current process id fn sys_getpid() -> i32 { thread::current().id() as i32 } /// Exit the current process fn sys_exit(exit_code: usize) -> i32 { let pid = processor().pid(); processor().manager().set_status(pid, Status::Exited(exit_code)); processor().yield_now(); 0 } fn sys_sleep(time: usize) -> i32 { use core::time::Duration; thread::sleep(Duration::from_millis(time as u64 * 10)); 0 } fn sys_get_time() -> i32 { unimplemented!(); } fn sys_lab6_set_priority(priority: usize) -> i32 { unimplemented!(); 0 } fn sys_putc(c: char) -> i32 { print!("{}", c); 0 } const SYS_EXIT: usize = 1; const SYS_FORK: usize = 2; const SYS_WAIT: usize = 3; const SYS_EXEC: usize = 4; const SYS_CLONE: usize = 5; const SYS_YIELD: usize = 10; const SYS_SLEEP: usize = 11; const SYS_KILL: usize = 12; const SYS_GETTIME: usize = 17; const SYS_GETPID: usize = 18; const SYS_MMAP: usize = 20; const SYS_MUNMAP: usize = 21; const SYS_SHMEM: usize = 22; const SYS_PUTC: usize = 30; const SYS_PGDIR: usize = 31; const SYS_OPEN: usize = 100; const SYS_CLOSE: usize = 101; const SYS_READ: usize = 102; const SYS_WRITE: usize = 103; const SYS_SEEK: usize = 104; const SYS_FSTAT: usize = 110; const SYS_FSYNC: usize = 111; const SYS_GETCWD: usize = 121; const SYS_GETDIRENTRY: usize = 128; const SYS_DUP: usize = 130; const SYS_LAB6_SET_PRIORITY: usize = 255;