add os[1-8]-ref for os refereces, add guide, add README

This commit is contained in:
Yu Chen
2022-06-27 22:22:44 +08:00
parent 7c1679774c
commit d752a67137
360 changed files with 32863 additions and 1 deletions

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//! Implementation of [`TrapContext`]
use riscv::register::sstatus::{self, Sstatus, SPP};
#[repr(C)]
/// trap context structure containing sstatus, sepc and registers
pub struct TrapContext {
pub x: [usize; 32],
pub sstatus: Sstatus,
pub sepc: usize,
pub kernel_satp: usize,
pub kernel_sp: usize,
pub trap_handler: usize,
}
impl TrapContext {
pub fn set_sp(&mut self, sp: usize) {
self.x[2] = sp;
}
pub fn app_init_context(
entry: usize,
sp: usize,
kernel_satp: usize,
kernel_sp: usize,
trap_handler: usize,
) -> Self {
let mut sstatus = sstatus::read();
sstatus.set_spp(SPP::User);
let mut cx = Self {
x: [0; 32],
sstatus,
sepc: entry,
kernel_satp,
kernel_sp,
trap_handler,
};
cx.set_sp(sp);
cx
}
}

115
os4-ref/src/trap/mod.rs Normal file
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//! Trap handling functionality
//!
//! For rCore, we have a single trap entry point, namely `__alltraps`. At
//! initialization in [`init()`], we set the `stvec` CSR to point to it.
//!
//! All traps go through `__alltraps`, which is defined in `trap.S`. The
//! assembly language code does just enough work restore the kernel space
//! context, ensuring that Rust code safely runs, and transfers control to
//! [`trap_handler()`].
//!
//! It then calls different functionality based on what exactly the exception
//! was. For example, timer interrupts trigger task preemption, and syscalls go
//! to [`syscall()`].
mod context;
use crate::config::{TRAMPOLINE, TRAP_CONTEXT};
use crate::syscall::syscall;
use crate::task::{
current_trap_cx, current_user_token, exit_current_and_run_next, suspend_current_and_run_next,
};
use crate::timer::set_next_trigger;
use riscv::register::{
mtvec::TrapMode,
scause::{self, Exception, Interrupt, Trap},
sie, stval, stvec,
};
core::arch::global_asm!(include_str!("trap.S"));
pub fn init() {
set_kernel_trap_entry();
}
fn set_kernel_trap_entry() {
unsafe {
stvec::write(trap_from_kernel as usize, TrapMode::Direct);
}
}
fn set_user_trap_entry() {
unsafe {
stvec::write(TRAMPOLINE as usize, TrapMode::Direct);
}
}
pub fn enable_timer_interrupt() {
unsafe {
sie::set_stimer();
}
}
#[no_mangle]
pub fn trap_handler() -> ! {
set_kernel_trap_entry();
let cx = current_trap_cx();
let scause = scause::read();
let stval = stval::read();
match scause.cause() {
Trap::Exception(Exception::UserEnvCall) => {
cx.sepc += 4;
cx.x[10] = syscall(cx.x[17], [cx.x[10], cx.x[11], cx.x[12]]) as usize;
}
Trap::Exception(Exception::StoreFault)
| Trap::Exception(Exception::StorePageFault)
| Trap::Exception(Exception::LoadPageFault) => {
error!("[kernel] PageFault in application, bad addr = {:#x}, bad instruction = {:#x}, core dumped.", stval, cx.sepc);
exit_current_and_run_next();
}
Trap::Exception(Exception::IllegalInstruction) => {
error!("[kernel] IllegalInstruction in application, core dumped.");
exit_current_and_run_next();
}
Trap::Interrupt(Interrupt::SupervisorTimer) => {
set_next_trigger();
suspend_current_and_run_next();
}
_ => {
panic!(
"Unsupported trap {:?}, stval = {:#x}!",
scause.cause(),
stval
);
}
}
trap_return();
}
#[no_mangle]
pub fn trap_return() -> ! {
set_user_trap_entry();
let trap_cx_ptr = TRAP_CONTEXT;
let user_satp = current_user_token();
extern "C" {
fn __alltraps();
fn __restore();
}
let restore_va = __restore as usize - __alltraps as usize + TRAMPOLINE;
unsafe {
core::arch::asm!(
"fence.i",
"jr {restore_va}",
restore_va = in(reg) restore_va,
in("a0") trap_cx_ptr,
in("a1") user_satp,
options(noreturn)
);
}
}
#[no_mangle]
pub fn trap_from_kernel() -> ! {
panic!("a trap from kernel!");
}
pub use context::TrapContext;

69
os4-ref/src/trap/trap.S Normal file
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.altmacro
.macro SAVE_GP n
sd x\n, \n*8(sp)
.endm
.macro LOAD_GP n
ld x\n, \n*8(sp)
.endm
.section .text.trampoline
.globl __alltraps
.globl __restore
.align 2
__alltraps:
csrrw sp, sscratch, sp
# now sp->*TrapContext in user space, sscratch->user stack
# save other general purpose registers
sd x1, 1*8(sp)
# skip sp(x2), we will save it later
sd x3, 3*8(sp)
# skip tp(x4), application does not use it
# save x5~x31
.set n, 5
.rept 27
SAVE_GP %n
.set n, n+1
.endr
# we can use t0/t1/t2 freely, because they have been saved in TrapContext
csrr t0, sstatus
csrr t1, sepc
sd t0, 32*8(sp)
sd t1, 33*8(sp)
# read user stack from sscratch and save it in TrapContext
csrr t2, sscratch
sd t2, 2*8(sp)
# load kernel_satp into t0
ld t0, 34*8(sp)
# load trap_handler into t1
ld t1, 36*8(sp)
# move to kernel_sp
ld sp, 35*8(sp)
# switch to kernel space
csrw satp, t0
sfence.vma
# jump to trap_handler
jr t1
__restore:
# a0: *TrapContext in user space(Constant); a1: user space token
# switch to user space
csrw satp, a1
sfence.vma
csrw sscratch, a0
mv sp, a0
# now sp points to TrapContext in user space, start restoring based on it
# restore sstatus/sepc
ld t0, 32*8(sp)
ld t1, 33*8(sp)
csrw sstatus, t0
csrw sepc, t1
# restore general purpose registers except x0/sp/tp
ld x1, 1*8(sp)
ld x3, 3*8(sp)
.set n, 5
.rept 27
LOAD_GP %n
.set n, n+1
.endr
# back to user stack
ld sp, 2*8(sp)
sret