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Make translate and map_to safe by making them RecursivePageTable methods

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Philipp Oppermann
2015-12-09 01:01:32 +01:00
parent fb7d2d22b6
commit 86d8e99271
1 changed files with 49 additions and 51 deletions
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100
src/memory/paging/mod.rs
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@@ -57,61 +57,59 @@ impl RecursivePageTable {
fn p4_mut(&mut self) -> &mut Table<Level4> {
unsafe { self.p4.get_mut() }
}
}
pub unsafe fn translate(virtual_address: VirtualAddress) -> Option<PhysicalAddress> {
let offset = virtual_address % PAGE_SIZE;
translate_page(Page::containing_address(virtual_address))
.map(|frame| frame.number * PAGE_SIZE + offset)
}
pub fn translate(&self, virtual_address: VirtualAddress) -> Option<PhysicalAddress> {
let offset = virtual_address % PAGE_SIZE;
self.translate_page(Page::containing_address(virtual_address))
.map(|frame| frame.number * PAGE_SIZE + offset)
}
unsafe fn translate_page(page: Page) -> Option<Frame> {
fn translate_page(&self, page: Page) -> Option<Frame> {
let p3 = self.p4().next_table(page.p4_index());
let p3 = unsafe { &*table::P4 }.next_table(page.p4_index());
let huge_page = || {
p3.and_then(|p3| {
let p3_entry = &p3[page.p3_index()];
// 1GiB page?
if let Some(start_frame) = p3_entry.pointed_frame() {
if p3_entry.flags().contains(HUGE_PAGE) {
// address must be 1GiB aligned
assert!(start_frame.number % (ENTRY_COUNT * ENTRY_COUNT) == 0);
return Some(Frame {
number: start_frame.number + page.p2_index() * ENTRY_COUNT +
page.p1_index(),
});
}
}
if let Some(p2) = p3.next_table(page.p3_index()) {
let p2_entry = &p2[page.p2_index()];
// 2MiB page?
if let Some(start_frame) = p2_entry.pointed_frame() {
if p2_entry.flags().contains(HUGE_PAGE) {
// address must be 2MiB aligned
assert!(start_frame.number % ENTRY_COUNT == 0);
return Some(Frame { number: start_frame.number + page.p1_index() });
let huge_page = || {
p3.and_then(|p3| {
let p3_entry = &p3[page.p3_index()];
// 1GiB page?
if let Some(start_frame) = p3_entry.pointed_frame() {
if p3_entry.flags().contains(HUGE_PAGE) {
// address must be 1GiB aligned
assert!(start_frame.number % (ENTRY_COUNT * ENTRY_COUNT) == 0);
return Some(Frame {
number: start_frame.number + page.p2_index() * ENTRY_COUNT +
page.p1_index(),
});
}
}
}
None
})
};
if let Some(p2) = p3.next_table(page.p3_index()) {
let p2_entry = &p2[page.p2_index()];
// 2MiB page?
if let Some(start_frame) = p2_entry.pointed_frame() {
if p2_entry.flags().contains(HUGE_PAGE) {
// address must be 2MiB aligned
assert!(start_frame.number % ENTRY_COUNT == 0);
return Some(Frame { number: start_frame.number + page.p1_index() });
}
}
}
None
})
};
p3.and_then(|p3| p3.next_table(page.p3_index()))
.and_then(|p2| p2.next_table(page.p2_index()))
.and_then(|p1| p1[page.p1_index()].pointed_frame())
.or_else(huge_page)
}
pub unsafe fn map_to<A>(page: Page, frame: Frame, flags: EntryFlags, allocator: &mut A)
where A: FrameAllocator
{
let p4 = unsafe { &mut *table::P4 };
let mut p3 = p4.next_table_create(page.p4_index(), allocator);
let mut p2 = p3.next_table_create(page.p3_index(), allocator);
let mut p1 = p2.next_table_create(page.p2_index(), allocator);
assert!(p1[page.p1_index()].is_unused());
p1[page.p1_index()].set(frame, flags | PRESENT);
p3.and_then(|p3| p3.next_table(page.p3_index()))
.and_then(|p2| p2.next_table(page.p2_index()))
.and_then(|p1| p1[page.p1_index()].pointed_frame())
.or_else(huge_page)
}
pub fn map_to<A>(&mut self, page: Page, frame: Frame, flags: EntryFlags, allocator: &mut A)
where A: FrameAllocator
{
let mut p3 = self.p4_mut().next_table_create(page.p4_index(), allocator);
let mut p2 = p3.next_table_create(page.p3_index(), allocator);
let mut p1 = p2.next_table_create(page.p2_index(), allocator);
assert!(p1[page.p1_index()].is_unused());
p1[page.p1_index()].set(frame, flags | PRESENT);
}
}