add setup_page_table

crate/aarch64/src/paging/page_table.rs

@@ -104,11 +104,10 @@ bitflags! {
         const SHARED =          3 << 8;         /* SH[1:0], inner shareable */
         const BIT_8 =           1 << 8;
         const BIT_9 =           1 << 9;
-        /*
+
-            pub const ATTRIB_SH_NON_SHAREABLE: usize = 0x0 << 8;
+        // pub const ATTRIB_SH_NON_SHAREABLE: usize = 0x0 << 8;
-            pub const ATTRIB_SH_OUTER_SHAREABLE: usize = 0x2 << 8;
+        const OUTER_SHAREABLE = 0b10 << 8;
-            pub const ATTRIB_SH_INNER_SHAREABLE: usize = 0x3 << 8;
+        const INNER_SHAREABLE = 0b11 << 8;
-        */
 
         const ACCESSED =        1 << 10;        /* AF, Access Flag */
         const NONE_GLOBAL =     1 << 11;        /* None Global */
@@ -148,6 +147,13 @@ impl PageTable {
             entry.set_unused();
         }
     }
+
+    /// Setup identity map: VirtPage at pagenumber -> PhysFrame at pagenumber
+    /// pn: pagenumber = addr>>12 in riscv32.
+    pub fn map_identity(&mut self, p4num: usize, flags: PageTableFlags) {
+        let entry = self.entries[p4num].clone();
+        self.entries[p4num].set_addr(entry.addr(), flags);
+    }
 }
 
 impl Index<usize> for PageTable {

kernel/src/arch/aarch64/memory.rs

@@ -5,7 +5,8 @@ use ucore_memory::PAGE_SIZE;
 use memory::{FRAME_ALLOCATOR, init_heap};
 use super::atags::atags::Atags;
 //use super::super::HEAP_ALLOCATOR;
-use aarch64::{barrier, regs::*};
+use aarch64::{barrier, regs::*, addr::*};
+use aarch64::paging::{FrameAllocator, FrameDeallocator, Page, PageRange, PhysFrame as Frame, Size4KiB};
 use core::ops::Range;
 
 /// Memory initialization.
@@ -15,9 +16,27 @@ pub fn init() {
         HEAP_ALLOCATOR.lock().init(start, end - start);
     }*/
 
+
+
+    #[repr(align(4096))]
+    struct PageData([u8; PAGE_SIZE]);
+    static PAGE_TABLE_ROOT: PageData = PageData([0; PAGE_SIZE]);
+
+    let frame = Frame::containing_address(PhysAddr::new(&PAGE_TABLE_ROOT as *const _ as u64));
+    super::paging::setup_page_table(frame);
+
+    init_mmu();
+
     init_frame_allocator();
     init_heap();
-    init_mmu();
+
+    let (start, end) = memory_map().expect("failed to find memory map");
+    let mut v = vec![];
+    for i in 0..(20 + (start & 0xf)) {
+       v.push(i);
+       println!("{:x?} {:x?}", &v[i] as * const _ as usize, v);
+    }
+
 }
 
 extern "C" {
@@ -26,19 +45,30 @@ extern "C" {
 
 
 fn init_frame_allocator() {
-    let mut ba = FRAME_ALLOCATOR.lock();
+    use consts::{MEMORY_OFFSET};
     let (start, end) = memory_map().expect("failed to find memory map");
+    info!("{:x?} {:x?}", start, end);
+
+    let mut ba = FRAME_ALLOCATOR.lock();
+    use core::mem::size_of;
+    use ::memory::FrameAlloc;
+    info!("{:x?} {:x?}", &FRAME_ALLOCATOR as *const _ as usize, size_of::<FrameAlloc>());
+    use consts::{KERNEL_HEAP_OFFSET, KERNEL_HEAP_SIZE};
+    info!("{:x?} {:x?}", KERNEL_HEAP_OFFSET + KERNEL_HEAP_SIZE, end);
     ba.insert(to_range(start, end));
     info!("FrameAllocator init end");
 
     fn to_range(start: usize, end: usize) -> Range<usize> {
-        let page_start = start / PAGE_SIZE;
+        let page_start = (start - MEMORY_OFFSET) / PAGE_SIZE;
-        let page_end = (end - 1) / PAGE_SIZE + 1;
+        let page_end = (end - MEMORY_OFFSET - 1) / PAGE_SIZE + 1;
+        // info!("{:x?} {:x?}", page_start, page_end);
         page_start..page_end
     }
 }
 
 fn init_mmu() {
+    info!("init_mmu");
+
     // device.
     MAIR_EL1.write(
         // Attribute 1
@@ -50,6 +80,7 @@ fn init_mmu() {
     );
     // Configure various settings of stage 1 of the EL1 translation regime.
     let ips = ID_AA64MMFR0_EL1.read(ID_AA64MMFR0_EL1::PARange);
+    info!("{:x?}", ips);
     TCR_EL1.write(
         TCR_EL1::TBI0::Ignored
             + TCR_EL1::IPS.val(ips)
@@ -58,7 +89,7 @@ fn init_mmu() {
             + TCR_EL1::ORGN0::WriteBack_ReadAlloc_WriteAlloc_Cacheable
             + TCR_EL1::IRGN0::WriteBack_ReadAlloc_WriteAlloc_Cacheable
             + TCR_EL1::EPD0::EnableTTBR0Walks
-            + TCR_EL1::T0SZ.val(34), // Start walks at level 2
+            + TCR_EL1::T0SZ.val(16), // Start walks at level 2
     );
 
     // Switch the MMU on.
@@ -66,11 +97,14 @@ fn init_mmu() {
     // First, force all previous changes to be seen before the MMU is enabled.
     unsafe { barrier::isb(barrier::SY); }
 
+    info!("{:x?}", TCR_EL1.get());
     // Enable the MMU and turn on data and instruction caching.
     SCTLR_EL1.modify(SCTLR_EL1::M::Enable + SCTLR_EL1::C::Cacheable + SCTLR_EL1::I::Cacheable);
 
     // Force MMU init to complete before next instruction
     unsafe { barrier::isb(barrier::SY); }
+
+    info!("mmu enabled!");
 }
 
 /// Returns the (start address, end address) of the available memory on this

kernel/src/arch/aarch64/paging.rs

@@ -11,6 +11,32 @@ use aarch64::paging::{Mapper, PageTable as Aarch64PageTable, PageTableEntry, Pag
 use aarch64::paging::{FrameAllocator, FrameDeallocator, Page, PageRange, PhysFrame as Frame, Size4KiB};
 use aarch64::{regs::*};
 
+// need 1 page
+pub fn setup_page_table(frame: Frame) {
+    let p4 = unsafe { &mut *(frame.start_address().as_u64() as *mut Aarch64PageTable) };
+    p4.zero();
+
+
+    // p4.set_recursive(RECURSIVE_PAGE_PML4, frame.clone());
+
+    // Set kernel identity map
+    // 0x10000000 ~ 1K area
+    p4.map_identity(0o777, EF::PRESENT | EF::PXN | EF::UXN);
+
+    // 0x80000000 ~ 8K area
+    p4.map_identity(0, EF::PRESENT);
+    // p2.map_identity(KERNEL_PML4, EF::PRESENT | EF::READABLE | EF::WRITABLE);
+    // p2.map_identity(KERNEL_PML4 + 1, EF::VALID | EF::READABLE | EF::WRITABLE | EF::EXECUTABLE);
+
+    // use super::riscv::register::satp;
+    // unsafe { satp::set(satp::Mode::Sv32, 0, frame); }
+    // sfence_vma_all();
+
+    ttbr0_el1_write(frame);
+    tlb_invalidate();
+    info!("setup init page table end");
+}
+
 pub trait PageExt {
     fn of_addr(address: usize) -> Self;
     fn range_of(begin: usize, end: usize) -> PageRange;
@@ -75,7 +101,7 @@ impl PageTable for ActivePageTable {
 
 impl ActivePageTable {
     pub unsafe fn new() -> Self {
-        ActivePageTable(RecursivePageTable::new(&mut *(0xffffffff_fffff000 as *mut _)).unwrap())
+        ActivePageTable(RecursivePageTable::new(&mut *(0xffff_ffff_ffff_f000 as *mut _)).unwrap())
     }
     fn with_temporary_map(&mut self, frame: &Frame, f: impl FnOnce(&mut ActivePageTable, &mut Aarch64PageTable)) {
         // Create a temporary page
@@ -238,7 +264,7 @@ impl InactivePageTable for InactivePageTable0 {
 
 impl InactivePageTable0 {
     fn map_kernel(&mut self) {
-        let mut table = unsafe { &mut *(0xffffffff_fffff000 as *mut Aarch64PageTable) };
+        let mut table = unsafe { &mut *(0xffff_ffff_ffff_f000 as *mut Aarch64PageTable) };
         // Kernel at 0xffff_ff00_0000_0000
         // Kernel stack at 0x0000_57ac_0000_0000 (defined in bootloader crate)
         let e0 = table[0].clone();
@@ -268,4 +294,4 @@ impl FrameDeallocator<Size4KiB> for FrameAllocatorForAarch64 {
     fn dealloc(&mut self, frame: Frame) {
         dealloc_frame(frame.start_address().as_u64() as usize);
     }
-}
+}