mirror of
https://github.com/rcore-os/rCore.git
synced 2024-11-23 00:16:17 +04:00
added rv32 smp booting, with slight modification to bbl
This commit is contained in:
parent
6cf0d6db23
commit
49cd04dce3
14
kernel/src/arch/riscv32/consts.rs
Normal file
14
kernel/src/arch/riscv32/consts.rs
Normal file
@ -0,0 +1,14 @@
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// Physical address available on THINPAD:
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// [0x80000000, 0x80800000]
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const P2_SIZE: usize = 1 << 22;
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const P2_MASK: usize = 0x3ff << 22;
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pub const RECURSIVE_PAGE_PML4: usize = 0x3fe;
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pub const KERNEL_OFFSET: usize = 0;
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pub const KERNEL_PML4: usize = 0x8000_0000 >> 22;
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pub const KERNEL_HEAP_OFFSET: usize = 0x8020_0000;
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pub const KERNEL_HEAP_SIZE: usize = 0x0020_0000;
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pub const MEMORY_OFFSET: usize = 0x8000_0000;
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pub const MEMORY_END: usize = 0x8080_0000;
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pub const USER_STACK_OFFSET: usize = 0x70000000;
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pub const USER_STACK_SIZE: usize = 0x10000;
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pub const USER32_STACK_OFFSET: usize = USER_STACK_OFFSET;
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@ -3,6 +3,8 @@ use memory::{active_table, FRAME_ALLOCATOR, init_heap, MemoryArea, MemoryAttr, M
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use super::riscv::{addr::*, register::sstatus};
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use ucore_memory::PAGE_SIZE;
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// static mut KERNEL_MS: Option<MemorySet> = None;
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pub fn init() {
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#[repr(align(4096))]
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struct PageData([u8; PAGE_SIZE]);
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@ -7,15 +7,34 @@ pub mod timer;
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pub mod paging;
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pub mod memory;
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pub mod compiler_rt;
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pub mod consts;
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pub mod smp;
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use self::smp::*;
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fn others_main(hartid: usize) -> ! {
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println!("hart {} is booting", hartid);
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loop { }
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}
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#[no_mangle]
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pub extern fn rust_main(hartid: usize) -> ! {
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println!("Hello RISCV! {}", hartid);
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pub extern fn rust_main(hartid: usize, dtb: usize, hart_mask: usize) -> ! {
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unsafe { set_cpu_id(hartid); }
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if hartid != 0 {
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while unsafe { !has_started(hartid) } { }
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others_main(hartid);
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// others_main should not return
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}
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println!("Hello RISCV! in hart {}, {}, {}", hartid, dtb, hart_mask);
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::logging::init();
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interrupt::init();
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memory::init();
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timer::init();
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unsafe { start_others(hart_mask); }
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::kmain();
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}
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31
kernel/src/arch/riscv32/smp.rs
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31
kernel/src/arch/riscv32/smp.rs
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@ -0,0 +1,31 @@
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use consts::MAX_CPU_NUM;
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use core::ptr::{read_volatile, write_volatile};
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use memory::*;
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static mut STARTED: [bool; MAX_CPU_NUM] = [false; MAX_CPU_NUM];
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pub unsafe fn set_cpu_id(cpu_id: usize) {
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unsafe {
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asm!("mv tp, $0" : : "r"(cpu_id));
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}
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}
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pub unsafe fn get_cpu_id() -> usize {
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let mut cpu_id = 0;
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unsafe {
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asm!("mv $0, tp" : : "r" (cpu_id));
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}
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cpu_id
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}
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pub unsafe fn has_started(cpu_id: usize) -> bool {
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read_volatile(&STARTED[cpu_id])
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}
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pub unsafe fn start_others(hart_mask: usize) {
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for cpu_id in 0..MAX_CPU_NUM {
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if (hart_mask >> cpu_id) & 1 != 0 {
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write_volatile(&mut STARTED[cpu_id], true);
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}
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}
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}
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97
kernel/src/arch/x86_64/consts.rs
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97
kernel/src/arch/x86_64/consts.rs
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@ -0,0 +1,97 @@
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// Copy from Redox consts.rs:
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// Because the memory map is so important to not be aliased, it is defined here, in one place
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// The lower 256 PML4 entries are reserved for userspace
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// Each PML4 entry references up to 512 GB of memory
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// The top (511) PML4 is reserved for recursive mapping
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// The second from the top (510) PML4 is reserved for the kernel
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/// The size of a single PML4
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pub const PML4_SIZE: usize = 0x0000_0080_0000_0000;
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pub const PML4_MASK: usize = 0x0000_ff80_0000_0000;
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/// Offset of recursive paging
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pub const RECURSIVE_PAGE_OFFSET: usize = (-(PML4_SIZE as isize)) as usize;
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pub const RECURSIVE_PAGE_PML4: usize = (RECURSIVE_PAGE_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset of kernel
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pub const KERNEL_OFFSET: usize = RECURSIVE_PAGE_OFFSET - PML4_SIZE;
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pub const KERNEL_PML4: usize = (KERNEL_OFFSET & PML4_MASK) / PML4_SIZE;
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pub const KERNEL_SIZE: usize = PML4_SIZE;
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/// Offset to kernel heap
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pub const KERNEL_HEAP_OFFSET: usize = KERNEL_OFFSET - PML4_SIZE;
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pub const KERNEL_HEAP_PML4: usize = (KERNEL_HEAP_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Size of kernel heap
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pub const KERNEL_HEAP_SIZE: usize = 8 * 1024 * 1024; // 8 MB
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pub const MEMORY_OFFSET: usize = 0;
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/// Offset to kernel percpu variables
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//TODO: Use 64-bit fs offset to enable this pub const KERNEL_PERCPU_OFFSET: usize = KERNEL_HEAP_OFFSET - PML4_SIZE;
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pub const KERNEL_PERCPU_OFFSET: usize = 0xC000_0000;
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/// Size of kernel percpu variables
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pub const KERNEL_PERCPU_SIZE: usize = 64 * 1024; // 64 KB
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/// Offset to user image
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pub const USER_OFFSET: usize = 0;
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pub const USER_PML4: usize = (USER_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user TCB
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pub const USER_TCB_OFFSET: usize = 0xB000_0000;
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/// Offset to user arguments
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pub const USER_ARG_OFFSET: usize = USER_OFFSET + PML4_SIZE / 2;
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/// Offset to user heap
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pub const USER_HEAP_OFFSET: usize = USER_OFFSET + PML4_SIZE;
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pub const USER_HEAP_PML4: usize = (USER_HEAP_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user grants
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pub const USER_GRANT_OFFSET: usize = USER_HEAP_OFFSET + PML4_SIZE;
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pub const USER_GRANT_PML4: usize = (USER_GRANT_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user stack
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pub const USER_STACK_OFFSET: usize = USER_GRANT_OFFSET + PML4_SIZE;
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pub const USER32_STACK_OFFSET: usize = 0xB000_0000;
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pub const USER_STACK_PML4: usize = (USER_STACK_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Size of user stack
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pub const USER_STACK_SIZE: usize = 1024 * 1024; // 1 MB
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/// Offset to user sigstack
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pub const USER_SIGSTACK_OFFSET: usize = USER_STACK_OFFSET + PML4_SIZE;
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pub const USER_SIGSTACK_PML4: usize = (USER_SIGSTACK_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Size of user sigstack
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pub const USER_SIGSTACK_SIZE: usize = 256 * 1024; // 256 KB
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/// Offset to user TLS
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pub const USER_TLS_OFFSET: usize = USER_SIGSTACK_OFFSET + PML4_SIZE;
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pub const USER_TLS_PML4: usize = (USER_TLS_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user temporary image (used when cloning)
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pub const USER_TMP_OFFSET: usize = USER_TLS_OFFSET + PML4_SIZE;
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pub const USER_TMP_PML4: usize = (USER_TMP_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user temporary heap (used when cloning)
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pub const USER_TMP_HEAP_OFFSET: usize = USER_TMP_OFFSET + PML4_SIZE;
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pub const USER_TMP_HEAP_PML4: usize = (USER_TMP_HEAP_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user temporary page for grants
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pub const USER_TMP_GRANT_OFFSET: usize = USER_TMP_HEAP_OFFSET + PML4_SIZE;
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pub const USER_TMP_GRANT_PML4: usize = (USER_TMP_GRANT_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user temporary stack (used when cloning)
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pub const USER_TMP_STACK_OFFSET: usize = USER_TMP_GRANT_OFFSET + PML4_SIZE;
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pub const USER_TMP_STACK_PML4: usize = (USER_TMP_STACK_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user temporary sigstack (used when cloning)
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pub const USER_TMP_SIGSTACK_OFFSET: usize = USER_TMP_STACK_OFFSET + PML4_SIZE;
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pub const USER_TMP_SIGSTACK_PML4: usize = (USER_TMP_SIGSTACK_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user temporary tls (used when cloning)
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pub const USER_TMP_TLS_OFFSET: usize = USER_TMP_SIGSTACK_OFFSET + PML4_SIZE;
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pub const USER_TMP_TLS_PML4: usize = (USER_TMP_TLS_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset for usage in other temporary pages
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pub const USER_TMP_MISC_OFFSET: usize = USER_TMP_TLS_OFFSET + PML4_SIZE;
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pub const USER_TMP_MISC_PML4: usize = (USER_TMP_MISC_OFFSET & PML4_MASK) / PML4_SIZE;
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@ -12,6 +12,7 @@ pub mod idt;
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//pub mod smp;
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pub mod memory;
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pub mod io;
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pub mod consts;
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/// The entry point of kernel
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#[no_mangle] // don't mangle the name of this function
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@ -1,128 +1,6 @@
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#![allow(dead_code)]
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#[cfg(target_arch = "riscv32")]
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pub use self::riscv::*;
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#[cfg(target_arch = "x86_64")]
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pub use self::x86_64::*;
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pub use arch::consts::*;
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pub const MAX_CPU_NUM: usize = 8;
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pub const MAX_PROCESS_NUM: usize = 48;
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#[cfg(target_arch = "riscv32")]
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mod riscv {
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// Physical address available on THINPAD:
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// [0x80000000, 0x80800000]
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const P2_SIZE: usize = 1 << 22;
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const P2_MASK: usize = 0x3ff << 22;
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pub const RECURSIVE_PAGE_PML4: usize = 0x3fe;
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pub const KERNEL_OFFSET: usize = 0;
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pub const KERNEL_PML4: usize = 0x8000_0000 >> 22;
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pub const KERNEL_HEAP_OFFSET: usize = 0x8020_0000;
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pub const KERNEL_HEAP_SIZE: usize = 0x0020_0000;
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pub const MEMORY_OFFSET: usize = 0x8000_0000;
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pub const MEMORY_END: usize = 0x8080_0000;
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pub const USER_STACK_OFFSET: usize = 0x70000000;
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pub const USER_STACK_SIZE: usize = 0x10000;
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pub const USER32_STACK_OFFSET: usize = USER_STACK_OFFSET;
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}
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#[cfg(target_arch = "x86_64")]
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mod x86_64 {
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// Copy from Redox consts.rs:
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// Because the memory map is so important to not be aliased, it is defined here, in one place
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// The lower 256 PML4 entries are reserved for userspace
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// Each PML4 entry references up to 512 GB of memory
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// The top (511) PML4 is reserved for recursive mapping
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// The second from the top (510) PML4 is reserved for the kernel
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/// The size of a single PML4
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pub const PML4_SIZE: usize = 0x0000_0080_0000_0000;
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pub const PML4_MASK: usize = 0x0000_ff80_0000_0000;
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/// Offset of recursive paging
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pub const RECURSIVE_PAGE_OFFSET: usize = (-(PML4_SIZE as isize)) as usize;
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pub const RECURSIVE_PAGE_PML4: usize = (RECURSIVE_PAGE_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset of kernel
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pub const KERNEL_OFFSET: usize = RECURSIVE_PAGE_OFFSET - PML4_SIZE;
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pub const KERNEL_PML4: usize = (KERNEL_OFFSET & PML4_MASK) / PML4_SIZE;
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pub const KERNEL_SIZE: usize = PML4_SIZE;
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/// Offset to kernel heap
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pub const KERNEL_HEAP_OFFSET: usize = KERNEL_OFFSET - PML4_SIZE;
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pub const KERNEL_HEAP_PML4: usize = (KERNEL_HEAP_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Size of kernel heap
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pub const KERNEL_HEAP_SIZE: usize = 8 * 1024 * 1024; // 8 MB
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pub const MEMORY_OFFSET: usize = 0;
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/// Offset to kernel percpu variables
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//TODO: Use 64-bit fs offset to enable this pub const KERNEL_PERCPU_OFFSET: usize = KERNEL_HEAP_OFFSET - PML4_SIZE;
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pub const KERNEL_PERCPU_OFFSET: usize = 0xC000_0000;
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/// Size of kernel percpu variables
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pub const KERNEL_PERCPU_SIZE: usize = 64 * 1024; // 64 KB
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/// Offset to user image
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pub const USER_OFFSET: usize = 0;
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pub const USER_PML4: usize = (USER_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user TCB
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pub const USER_TCB_OFFSET: usize = 0xB000_0000;
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/// Offset to user arguments
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pub const USER_ARG_OFFSET: usize = USER_OFFSET + PML4_SIZE / 2;
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/// Offset to user heap
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pub const USER_HEAP_OFFSET: usize = USER_OFFSET + PML4_SIZE;
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pub const USER_HEAP_PML4: usize = (USER_HEAP_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user grants
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pub const USER_GRANT_OFFSET: usize = USER_HEAP_OFFSET + PML4_SIZE;
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pub const USER_GRANT_PML4: usize = (USER_GRANT_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user stack
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pub const USER_STACK_OFFSET: usize = USER_GRANT_OFFSET + PML4_SIZE;
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pub const USER32_STACK_OFFSET: usize = 0xB000_0000;
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pub const USER_STACK_PML4: usize = (USER_STACK_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Size of user stack
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pub const USER_STACK_SIZE: usize = 1024 * 1024; // 1 MB
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/// Offset to user sigstack
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pub const USER_SIGSTACK_OFFSET: usize = USER_STACK_OFFSET + PML4_SIZE;
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pub const USER_SIGSTACK_PML4: usize = (USER_SIGSTACK_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Size of user sigstack
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pub const USER_SIGSTACK_SIZE: usize = 256 * 1024; // 256 KB
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/// Offset to user TLS
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pub const USER_TLS_OFFSET: usize = USER_SIGSTACK_OFFSET + PML4_SIZE;
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pub const USER_TLS_PML4: usize = (USER_TLS_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user temporary image (used when cloning)
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pub const USER_TMP_OFFSET: usize = USER_TLS_OFFSET + PML4_SIZE;
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pub const USER_TMP_PML4: usize = (USER_TMP_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user temporary heap (used when cloning)
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pub const USER_TMP_HEAP_OFFSET: usize = USER_TMP_OFFSET + PML4_SIZE;
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pub const USER_TMP_HEAP_PML4: usize = (USER_TMP_HEAP_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user temporary page for grants
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pub const USER_TMP_GRANT_OFFSET: usize = USER_TMP_HEAP_OFFSET + PML4_SIZE;
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pub const USER_TMP_GRANT_PML4: usize = (USER_TMP_GRANT_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user temporary stack (used when cloning)
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pub const USER_TMP_STACK_OFFSET: usize = USER_TMP_GRANT_OFFSET + PML4_SIZE;
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pub const USER_TMP_STACK_PML4: usize = (USER_TMP_STACK_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user temporary sigstack (used when cloning)
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pub const USER_TMP_SIGSTACK_OFFSET: usize = USER_TMP_STACK_OFFSET + PML4_SIZE;
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pub const USER_TMP_SIGSTACK_PML4: usize = (USER_TMP_SIGSTACK_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset to user temporary tls (used when cloning)
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pub const USER_TMP_TLS_OFFSET: usize = USER_TMP_SIGSTACK_OFFSET + PML4_SIZE;
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pub const USER_TMP_TLS_PML4: usize = (USER_TMP_TLS_OFFSET & PML4_MASK) / PML4_SIZE;
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/// Offset for usage in other temporary pages
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pub const USER_TMP_MISC_OFFSET: usize = USER_TMP_TLS_OFFSET + PML4_SIZE;
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pub const USER_TMP_MISC_PML4: usize = (USER_TMP_MISC_OFFSET & PML4_MASK) / PML4_SIZE;
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}
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4
kernel/src/smp.rs
Normal file
4
kernel/src/smp.rs
Normal file
@ -0,0 +1,4 @@
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pub struct cpu {
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pub id: usize
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}
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@ -48,7 +48,7 @@ void boot_other_hart(uintptr_t unused __attribute__((unused)))
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}
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}
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enter_supervisor_mode(entry, hartid, dtb_output());
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enter_supervisor_mode(entry, hartid, dtb_output(), ~disabled_hart_mask & hart_mask);
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}
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void boot_loader(uintptr_t dtb)
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@ -172,7 +172,7 @@ void init_other_hart(uintptr_t hartid, uintptr_t dtb)
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boot_other_hart(dtb);
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}
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void enter_supervisor_mode(void (*fn)(uintptr_t), uintptr_t arg0, uintptr_t arg1)
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void enter_supervisor_mode(void (*fn)(uintptr_t), uintptr_t arg0, uintptr_t arg1, uintptr_t arg2)
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{
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// Set up a PMP to permit access to all of memory.
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// Ignore the illegal-instruction trap if PMPs aren't supported.
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@ -194,6 +194,7 @@ void enter_supervisor_mode(void (*fn)(uintptr_t), uintptr_t arg0, uintptr_t arg1
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register uintptr_t a0 asm ("a0") = arg0;
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register uintptr_t a1 asm ("a1") = arg1;
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asm volatile ("mret" : : "r" (a0), "r" (a1));
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register uintptr_t a2 asm ("a2") = arg2;
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asm volatile ("mret" : : "r" (a0), "r" (a1), "r" (a2));
|
||||
__builtin_unreachable();
|
||||
}
|
||||
|
@ -63,7 +63,7 @@ void putstring(const char* s);
|
||||
#define assert(x) ({ if (!(x)) die("assertion failed: %s", #x); })
|
||||
#define die(str, ...) ({ printm("%s:%d: " str "\n", __FILE__, __LINE__, ##__VA_ARGS__); poweroff(-1); })
|
||||
|
||||
void enter_supervisor_mode(void (*fn)(uintptr_t), uintptr_t arg0, uintptr_t arg1)
|
||||
void enter_supervisor_mode(void (*fn)(uintptr_t), uintptr_t arg0, uintptr_t arg1, uintptr_t arg2)
|
||||
__attribute__((noreturn));
|
||||
void boot_loader(uintptr_t dtb);
|
||||
void boot_other_hart(uintptr_t dtb);
|
||||
|
Loading…
Reference in New Issue
Block a user