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osblog/risc_v/src/syscall.rs

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2020-03-16 04:18:46 +04:00
// syscall.rs
// System calls
// Stephen Marz
// 3 Jan 2020
use crate::{block::block_op,
cpu::{TrapFrame, dump_registers},
minixfs,
page::{virt_to_phys, Table},
process::{delete_process, get_by_pid, set_sleeping, set_waiting}};
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/// do_syscall is called from trap.rs to invoke a system call. No discernment is
/// made here whether this is a U-mode, S-mode, or M-mode system call.
/// Since we can't do anything unless we dereference the passed pointer,
/// I went ahead and made the entire function unsafe.
pub unsafe fn do_syscall(mepc: usize, frame: *mut TrapFrame) -> usize {
let syscall_number;
// Libgloss expects the system call number in A7, so let's follow
// their lead.
// A7 is X17, so it's register number 17.
syscall_number = (*frame).regs[17];
match syscall_number {
0 | 93 => {
// Exit
// Currently, we cannot kill a process, it runs forever. We will delete
// the process later and free the resources, but for now, we want to get
// used to how processes will be scheduled on the CPU.
delete_process((*frame).pid as u16);
0
},
1 => {
dump_registers(frame);
mepc + 4
},
2 => {
// Sleep
set_sleeping((*frame).pid as u16, (*frame).regs[10]);
0
},
63 => {
// Read system call
// This is an asynchronous call. This will get the process going. We won't hear the answer until
// we an interrupt back.
// TODO: The buffer is a virtual memory address that needs to be translated to a physical memory
// location.
// This needs to be put into a process and ran.
// The buffer (regs[12]) needs to be translated when ran from a user process using virt_to_phys.
// If this turns out to be a page fault, we need to NOT proceed with the read!
let mut physical_buffer = (*frame).regs[12];
// If the MMU is turned on, we have to translate the address. Eventually, I will put this
// code into a convenient function, but for now, it will show how translation will be done.
if (*frame).satp != 0 {
let p = get_by_pid((*frame).pid as u16);
let table = ((*p).get_table_address() as *mut Table).as_ref().unwrap();
let paddr = virt_to_phys(table, (*frame).regs[12]);
if paddr.is_none() {
(*frame).regs[10] = -1isize as usize;
return mepc + 4;
}
physical_buffer = paddr.unwrap();
}
// TODO: Not only do we need to check the buffer, but it is possible that the buffer spans
// multiple pages. We need to check all pages that this might span. We can't just do paddr
// and paddr + size, since there could be a missing page somewhere in between.
let _ = minixfs::process_read(
(*frame).pid as u16,
(*frame).regs[10] as usize,
(*frame).regs[11] as u32,
physical_buffer as *mut u8,
(*frame).regs[13] as u32,
(*frame).regs[14] as u32,
);
// If we return 0, the trap handler will schedule another process.
0
},
180 => {
// println!(
// "Pid: {}, Dev: {}, Buffer: 0x{:x}, Size: {}, Offset: {}",
// (*frame).pid,
// (*frame).regs[10],
// (*frame).regs[11],
// (*frame).regs[12],
// (*frame).regs[13]
// );
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set_waiting((*frame).pid as u16);
let _ = block_op((*frame).regs[10], (*frame).regs[11] as *mut u8, (*frame).regs[12] as u32, (*frame).regs[13] as u64, false, (*frame).pid as u16);
0
},
_ => {
println!("Unknown syscall number {}", syscall_number);
mepc + 4
},
}
}
extern "C" {
fn make_syscall(sysno: usize, arg0: usize, arg1: usize, arg2: usize, arg3: usize, arg4: usize, arg5: usize) -> usize;
}
fn do_make_syscall(sysno: usize, arg0: usize, arg1: usize, arg2: usize, arg3: usize, arg4: usize, arg5: usize) -> usize {
unsafe { make_syscall(sysno, arg0, arg1, arg2, arg3, arg4, arg5) }
}
pub fn syscall_exit() {
let _ = do_make_syscall(93, 0, 0, 0, 0, 0, 0);
}
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pub fn syscall_fs_read(dev: usize, inode: u32, buffer: *mut u8, size: u32, offset: u32) -> usize {
do_make_syscall(63, dev, inode as usize, buffer as usize, size as usize, offset as usize, 0)
}
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pub fn syscall_block_read(dev: usize, buffer: *mut u8, size: u32, offset: u32) -> u8 {
do_make_syscall(180, dev, buffer as usize, size as usize, offset as usize, 0, 0) as u8
}
// These system call numbers come from libgloss so that we can use newlib
// for our system calls.
// Libgloss wants the system call number in A7 and arguments in A0..A6
// #define SYS_getcwd 17
// #define SYS_dup 23
// #define SYS_fcntl 25
// #define SYS_faccessat 48
// #define SYS_chdir 49
// #define SYS_openat 56
// #define SYS_close 57
// #define SYS_getdents 61
// #define SYS_lseek 62
// #define SYS_read 63
// #define SYS_write 64
// #define SYS_writev 66
// #define SYS_pread 67
// #define SYS_pwrite 68
// #define SYS_fstatat 79
// #define SYS_fstat 80
// #define SYS_exit 93
// #define SYS_exit_group 94
// #define SYS_kill 129
// #define SYS_rt_sigaction 134
// #define SYS_times 153
// #define SYS_uname 160
// #define SYS_gettimeofday 169
// #define SYS_getpid 172
// #define SYS_getuid 174
// #define SYS_geteuid 175
// #define SYS_getgid 176
// #define SYS_getegid 177
// #define SYS_brk 214
// #define SYS_munmap 215
// #define SYS_mremap 216
// #define SYS_mmap 222
// #define SYS_open 1024
// #define SYS_link 1025
// #define SYS_unlink 1026
// #define SYS_mkdir 1030
// #define SYS_access 1033
// #define SYS_stat 1038
// #define SYS_lstat 1039
// #define SYS_time 1062
// #define SYS_getmainvars 2011