Files
RedBear-OS/src/main.rs
T
2026-02-20 15:59:27 +00:00

248 lines
5.5 KiB
Rust

//! # The Redox OS Kernel, version 2
//!
//! The Redox OS Kernel is a microkernel that supports `x86_64` systems and
//! provides Unix-like syscalls for primarily Rust applications
#![feature(asm_cfg)] // Stabilized in 1.93
#![feature(if_let_guard)]
#![feature(int_roundings)]
#![feature(iter_next_chunk)]
#![feature(sync_unsafe_cell)]
#![feature(variant_count)]
#![feature(btree_cursors)]
#![cfg_attr(not(test), no_std)]
#![cfg_attr(not(test), no_main)]
#[macro_use]
extern crate alloc;
#[macro_use]
extern crate bitflags;
use core::sync::atomic::{AtomicU32, Ordering};
use crate::context::switch::SwitchResult;
use crate::consts::*;
#[macro_use]
/// Shared data structures
mod common;
#[macro_use]
mod macros;
/// Architecture-dependent stuff
#[macro_use]
#[allow(dead_code)] // TODO
mod arch;
use crate::arch::*;
/// Heap allocators
mod allocator;
/// ACPI table parsing
#[cfg(feature = "acpi")]
#[allow(dead_code)] // TODO
mod acpi;
#[cfg(dtb)]
mod dtb;
/// Logical CPU ID and bitset types
mod cpu_set;
/// Stats for the CPUs
mod cpu_stats;
/// Context management
mod context;
/// Debugger
#[cfg(feature = "debugger")]
mod debugger;
/// Architecture-independent devices
mod devices;
/// Event handling
mod event;
/// Logging
mod log;
/// Memory management
mod memory;
/// Panic
mod panic;
mod percpu;
/// Process tracing
mod ptrace;
/// Performance profiling of the kernel
mod profiling;
/// Schemes, filesystem handlers
mod scheme;
/// Early init
mod startup;
/// Synchronization primitives
use sync::CleanLockToken;
mod sync;
/// Syscall handlers
mod syscall;
/// Time
mod time;
#[cfg_attr(not(test), global_allocator)]
static ALLOCATOR: allocator::Allocator = allocator::Allocator;
/// Get the current CPU's scheduling ID
#[inline(always)]
fn cpu_id() -> crate::cpu_set::LogicalCpuId {
crate::percpu::PercpuBlock::current().cpu_id
}
/// The count of all CPUs that can have work scheduled
static CPU_COUNT: AtomicU32 = AtomicU32::new(1);
/// Get the number of CPUs currently active
#[inline(always)]
fn cpu_count() -> u32 {
CPU_COUNT.load(Ordering::Relaxed)
}
fn init_env() -> &'static [u8] {
crate::BOOTSTRAP.get().expect("BOOTSTRAP was not set").env
}
extern "C" fn userspace_init() {
let mut token = unsafe { CleanLockToken::new() };
let bootstrap = crate::BOOTSTRAP.get().expect("BOOTSTRAP was not set");
unsafe { crate::syscall::process::usermode_bootstrap(bootstrap, &mut token) }
}
struct Bootstrap {
base: crate::memory::Frame,
page_count: usize,
env: &'static [u8],
}
static BOOTSTRAP: spin::Once<Bootstrap> = spin::Once::new();
/// This is the kernel entry point for the primary CPU. The arch crate is responsible for calling this
fn kmain(bootstrap: Bootstrap) -> ! {
let mut token = unsafe { CleanLockToken::new() };
//Initialize the first context, stored in kernel/src/context/mod.rs
context::init(&mut token);
//Initialize global schemes, such as `acpi:`.
scheme::init_globals();
debug!("BSP: {} CPUs", cpu_count());
debug!("Env: {:?}", ::core::str::from_utf8(bootstrap.env));
BOOTSTRAP.call_once(|| bootstrap);
profiling::ready_for_profiling();
let owner = None; // kmain not owned by any fd
match context::spawn(true, owner, userspace_init, &mut token) {
Ok(context_lock) => {
let mut context = context_lock.write(token.token());
context.status = context::Status::Runnable;
context.name.clear();
context.name.push_str("[bootstrap]");
// TODO: Remove these from kernel
context.euid = 0;
context.egid = 0;
}
Err(err) => {
panic!("failed to spawn userspace_init: {:?}", err);
}
}
run_userspace(&mut token)
}
/// This is the main kernel entry point for secondary CPUs
#[allow(unreachable_code, unused_variables, dead_code)]
fn kmain_ap(cpu_id: crate::cpu_set::LogicalCpuId) -> ! {
let mut token = unsafe { CleanLockToken::new() };
#[cfg(feature = "profiling")]
profiling::maybe_run_profiling_helper_forever(cpu_id);
if !cfg!(feature = "multi_core") {
debug!("AP {}: Disabled", cpu_id);
loop {
unsafe {
interrupt::disable();
interrupt::halt();
}
}
}
context::init(&mut token);
debug!("AP {}", cpu_id);
profiling::ready_for_profiling();
run_userspace(&mut token);
}
fn run_userspace(token: &mut CleanLockToken) -> ! {
loop {
unsafe {
interrupt::disable();
match context::switch(token) {
SwitchResult::Switched => {
interrupt::enable_and_nop();
}
SwitchResult::AllContextsIdle => {
// Enable interrupts, then halt CPU (to save power) until the next interrupt is actually fired.
interrupt::enable_and_halt();
}
}
}
}
}
// TODO: Use this macro on aarch64 too.
macro_rules! linker_offsets(
($($name:ident),*) => {
$(
#[inline]
pub fn $name() -> usize {
unsafe extern "C" {
// TODO: UnsafeCell?
static $name: u8;
}
(&raw const $name) as usize
}
)*
}
);
mod kernel_executable_offsets {
linker_offsets!(
__text_start,
__text_end,
__rodata_start,
__rodata_end,
__usercopy_start,
__usercopy_end
);
#[cfg(target_arch = "x86_64")]
linker_offsets!(__altrelocs_start, __altrelocs_end);
}