Move kernel heap into kernel PML4, now a single PML4 needs to be copied to initialize a new table
This commit is contained in:
Jeremy Soller
parent
83bc8a0da5
commit
c000820d72
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@ -142,7 +142,7 @@ pub unsafe fn init(active_table: &mut ActivePageTable) -> Option<Acpi> {
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let start_addr = 0xE0000;
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let end_addr = 0xFFFFF;
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// Map all of the ACPI RSDT space
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// Map all of the ACPI RSDP space
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{
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let start_frame = Frame::containing_address(PhysicalAddress::new(start_addr));
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let end_frame = Frame::containing_address(PhysicalAddress::new(end_addr));
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@ -205,7 +205,7 @@ pub unsafe fn init(active_table: &mut ActivePageTable) -> Option<Acpi> {
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println!("NO RSDP FOUND");
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}
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// Unmap all of the ACPI RSDT space
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// Unmap all of the ACPI RSDP space
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{
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let start_frame = Frame::containing_address(PhysicalAddress::new(start_addr));
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let end_frame = Frame::containing_address(PhysicalAddress::new(end_addr));
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@ -22,7 +22,8 @@ pub extern crate x86;
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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 upper 256 are reserved for the kernel
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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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@ -33,7 +34,7 @@ pub extern crate x86;
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pub const KERNEL_OFFSET: usize = RECURSIVE_PAGE_OFFSET - 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_OFFSET: usize = KERNEL_OFFSET + PML4_SIZE/2;
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/// Size of kernel heap
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pub const KERNEL_HEAP_SIZE: usize = 64 * 1024 * 1024; // 64 MB
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@ -22,6 +22,59 @@ pub const ENTRY_COUNT: usize = 512;
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/// Size of pages
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pub const PAGE_SIZE: usize = 4096;
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/// Setup page attribute table
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unsafe fn init_pat() {
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let uncacheable = 0;
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let write_combining = 1;
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let write_through = 4;
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//let write_protected = 5;
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let write_back = 6;
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let uncached = 7;
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let pat0 = write_back;
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let pat1 = write_through;
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let pat2 = uncached;
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let pat3 = uncacheable;
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let pat4 = write_combining;
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let pat5 = pat1;
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let pat6 = pat2;
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let pat7 = pat3;
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msr::wrmsr(msr::IA32_PAT, pat7 << 56 | pat6 << 48 | pat5 << 40 | pat4 << 32
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| pat3 << 24 | pat2 << 16 | pat1 << 8 | pat0);
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}
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/// Copy tdata, clear tbss, set TCB self pointer
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unsafe fn init_tcb(cpu_id: usize) -> usize {
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extern {
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/// The starting byte of the thread data segment
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static mut __tdata_start: u8;
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/// The ending byte of the thread data segment
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static mut __tdata_end: u8;
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/// The starting byte of the thread BSS segment
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static mut __tbss_start: u8;
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/// The ending byte of the thread BSS segment
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static mut __tbss_end: u8;
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}
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let tcb_offset;
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{
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let size = & __tbss_end as *const _ as usize - & __tdata_start as *const _ as usize;
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let tbss_offset = & __tbss_start as *const _ as usize - & __tdata_start as *const _ as usize;
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let start = ::KERNEL_PERCPU_OFFSET + ::KERNEL_PERCPU_SIZE * cpu_id;
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let end = start + size;
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tcb_offset = end - mem::size_of::<usize>();
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::externs::memcpy(start as *mut u8, & __tdata_start as *const u8, tbss_offset);
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::externs::memset((start + tbss_offset) as *mut u8, 0, size - tbss_offset);
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*(tcb_offset as *mut usize) = end;
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}
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tcb_offset
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}
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/// Initialize paging
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///
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/// Returns page table and thread control block offset
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@ -53,6 +106,8 @@ pub unsafe fn init(cpu_id: usize, stack_start: usize, stack_end: usize) -> (Acti
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static mut __bss_end: u8;
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}
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init_pat();
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let mut active_table = ActivePageTable::new();
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let mut temporary_page = TemporaryPage::new(Page::containing_address(VirtualAddress::new(0x8_0000_0000)));
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@ -109,45 +164,71 @@ pub unsafe fn init(cpu_id: usize, stack_start: usize, stack_end: usize) -> (Acti
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}
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});
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let uncacheable = 0;
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let write_combining = 1;
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let write_through = 4;
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//let write_protected = 5;
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let write_back = 6;
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let uncached = 7;
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let pat0 = write_back;
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let pat1 = write_through;
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let pat2 = uncached;
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let pat3 = uncacheable;
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let pat4 = write_combining;
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let pat5 = pat1;
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let pat6 = pat2;
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let pat7 = pat3;
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msr::wrmsr(msr::IA32_PAT, pat7 << 56 | pat6 << 48 | pat5 << 40 | pat4 << 32
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| pat3 << 24 | pat2 << 16 | pat1 << 8 | pat0);
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active_table.switch(new_table);
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// Copy tdata, clear tbss, set TCB self pointer
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let tcb_offset;
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(active_table, init_tcb(cpu_id))
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}
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pub unsafe fn init_ap(cpu_id: usize, stack_start: usize, stack_end: usize, kernel_table: usize) -> (ActivePageTable, usize) {
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extern {
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/// The starting byte of the thread data segment
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static mut __tdata_start: u8;
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/// The ending byte of the thread data segment
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static mut __tdata_end: u8;
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/// The starting byte of the thread BSS segment
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static mut __tbss_start: u8;
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/// The ending byte of the thread BSS segment
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static mut __tbss_end: u8;
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}
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init_pat();
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let mut active_table = ActivePageTable::new();
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let mut temporary_page = TemporaryPage::new(Page::containing_address(VirtualAddress::new(0x8_0000_0000)));
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let mut new_table = {
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let frame = allocate_frame().expect("no more frames in paging::init new_table");
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InactivePageTable::new(frame, &mut active_table, &mut temporary_page)
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};
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active_table.with(&mut new_table, &mut temporary_page, |mapper| {
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// Copy kernel mapping
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let kernel_frame = Frame::containing_address(PhysicalAddress::new(kernel_table));
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mapper.p4_mut()[510].set(kernel_frame, entry::PRESENT | entry::WRITABLE);
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// Map tdata and tbss
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{
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let size = & __tbss_end as *const _ as usize - & __tdata_start as *const _ as usize;
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let tbss_offset = & __tbss_start as *const _ as usize - & __tdata_start as *const _ as usize;
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let start = ::KERNEL_PERCPU_OFFSET + ::KERNEL_PERCPU_SIZE * cpu_id;
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let end = start + size;
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tcb_offset = end - mem::size_of::<usize>();
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::externs::memcpy(start as *mut u8, & __tdata_start as *const u8, tbss_offset);
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::externs::memset((start + tbss_offset) as *mut u8, 0, size - tbss_offset);
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*(tcb_offset as *mut usize) = end;
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let start_page = Page::containing_address(VirtualAddress::new(start));
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let end_page = Page::containing_address(VirtualAddress::new(end - 1));
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for page in Page::range_inclusive(start_page, end_page) {
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mapper.map(page, PRESENT | NO_EXECUTE | WRITABLE);
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}
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}
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(active_table, tcb_offset)
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let mut remap = |start: usize, end: usize, flags: EntryFlags, offset: usize| {
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if end > start {
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let start_frame = Frame::containing_address(PhysicalAddress::new(start));
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let end_frame = Frame::containing_address(PhysicalAddress::new(end - 1));
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for frame in Frame::range_inclusive(start_frame, end_frame) {
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let page = Page::containing_address(VirtualAddress::new(frame.start_address().get() + offset));
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mapper.map_to(page, frame, flags);
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}
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}
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};
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// Remap stack writable, no execute
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remap(stack_start, stack_end, PRESENT | NO_EXECUTE | WRITABLE, 0);
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});
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active_table.switch(new_table);
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(active_table, init_tcb(cpu_id))
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}
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pub struct ActivePageTable {
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@ -28,7 +28,7 @@ static mut TDATA_TEST_NONZERO: usize = 0xFFFFFFFFFFFFFFFF;
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pub static AP_READY: AtomicBool = ATOMIC_BOOL_INIT;
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static BSP_READY: AtomicBool = ATOMIC_BOOL_INIT;
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static HEAP_TABLE: AtomicUsize = ATOMIC_USIZE_INIT;
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static KERNEL_TABLE: AtomicUsize = ATOMIC_USIZE_INIT;
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extern {
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/// Kernel main function
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@ -93,9 +93,9 @@ pub unsafe extern fn kstart() -> ! {
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// Reset AP variables
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AP_READY.store(false, Ordering::SeqCst);
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BSP_READY.store(false, Ordering::SeqCst);
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HEAP_TABLE.store(0, Ordering::SeqCst);
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KERNEL_TABLE.store(0, Ordering::SeqCst);
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// Map heap
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// Setup kernel heap
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{
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// Map heap pages
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let heap_start_page = Page::containing_address(VirtualAddress::new(::KERNEL_HEAP_OFFSET));
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@ -106,24 +106,26 @@ pub unsafe extern fn kstart() -> ! {
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// Init the allocator
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allocator::init(::KERNEL_HEAP_OFFSET, ::KERNEL_HEAP_SIZE);
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}
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// Send heap page table to APs
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let index = heap_start_page.p4_index();
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// Initialize devices
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device::init(&mut active_table);
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// Send kernel page table to APs
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{
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let index = Page::containing_address(VirtualAddress::new(::KERNEL_OFFSET)).p4_index();
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let p4 = active_table.p4();
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{
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let entry = &p4[index];
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if let Some(frame) = entry.pointed_frame() {
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HEAP_TABLE.store(frame.start_address().get(), Ordering::SeqCst);
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KERNEL_TABLE.store(frame.start_address().get(), Ordering::SeqCst);
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} else {
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panic!("heap does not have PML4 entry");
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panic!("kernel does not have PML4 entry");
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}
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}
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}
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// Initialize devices
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device::init(&mut active_table);
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// Read ACPI tables, starts APs
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acpi::init(&mut active_table);
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@ -139,8 +141,14 @@ pub unsafe extern fn kstart_ap(cpu_id: usize, page_table: usize, stack_start: us
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assert_eq!(BSS_TEST_ZERO, 0);
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assert_eq!(DATA_TEST_NONZERO, 0xFFFFFFFFFFFFFFFF);
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// Retrieve kernel table entry
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while KERNEL_TABLE.load(Ordering::SeqCst) == 0 {
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interrupt::pause();
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}
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let kernel_table = KERNEL_TABLE.load(Ordering::SeqCst);
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// Initialize paging
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let (mut active_table, tcb_offset) = paging::init(cpu_id, stack_start, stack_end);
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let (mut active_table, tcb_offset) = paging::init_ap(cpu_id, stack_start, stack_end, kernel_table);
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// Set up GDT for AP
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gdt::init(tcb_offset, stack_end);
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@ -158,20 +166,6 @@ pub unsafe extern fn kstart_ap(cpu_id: usize, page_table: usize, stack_start: us
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assert_eq!(TDATA_TEST_NONZERO, 0xFFFFFFFFFFFFFFFE);
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}
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// Copy heap PML4
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{
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while HEAP_TABLE.load(Ordering::SeqCst) == 0 {
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interrupt::pause();
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}
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let frame = Frame::containing_address(PhysicalAddress::new(HEAP_TABLE.load(Ordering::SeqCst)));
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let page = Page::containing_address(VirtualAddress::new(::KERNEL_HEAP_OFFSET));
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let p4 = active_table.p4_mut();
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let entry = &mut p4[page.p4_index()];
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assert!(entry.is_unused());
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entry.set(frame, entry::PRESENT | entry::WRITABLE);
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}
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// Init devices for AP
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device::init_ap(&mut active_table);
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