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0e8f1d7cb6
ladybird/Kernel/VM/Region.cpp
Andreas Kling 0e8f1d7cb6 Kernel: Don't expose a region's page directory to the outside world 
Now that region manages its own mapping/unmapping, there's no need for
the outside world to be able to grab at its page directory.
2019-11-04 00:26:00 +01:00

256 lines
8.5 KiB
C++
Raw Blame History

#include <Kernel/FileSystem/Inode.h>
#include <Kernel/Process.h>
#include <Kernel/Thread.h>
#include <Kernel/VM/AnonymousVMObject.h>
#include <Kernel/VM/InodeVMObject.h>
#include <Kernel/VM/MemoryManager.h>
#include <Kernel/VM/Region.h>
//#define MM_DEBUG
Region::Region(const Range& range, const String& name, u8 access)
: m_range(range)
, m_vmobject(AnonymousVMObject::create_with_size(size()))
, m_name(name)
, m_access(access)
{
MM.register_region(*this);
}
Region::Region(const Range& range, NonnullRefPtr<Inode> inode, const String& name, u8 access)
: m_range(range)
, m_vmobject(InodeVMObject::create_with_inode(*inode))
, m_name(name)
, m_access(access)
{
MM.register_region(*this);
}
Region::Region(const Range& range, NonnullRefPtr<VMObject> vmo, size_t offset_in_vmo, const String& name, u8 access)
: m_range(range)
, m_offset_in_vmo(offset_in_vmo)
, m_vmobject(move(vmo))
, m_name(name)
, m_access(access)
{
MM.register_region(*this);
}
Region::~Region()
{
// Make sure we disable interrupts so we don't get interrupted between unmapping and unregistering.
// Unmapping the region will give the VM back to the RangeAllocator, so an interrupt handler would
// find the address<->region mappings in an invalid state there.
InterruptDisabler disabler;
if (m_page_directory) {
unmap(ShouldDeallocateVirtualMemoryRange::Yes);
ASSERT(!m_page_directory);
}
MM.unregister_region(*this);
}
NonnullOwnPtr<Region> Region::clone()
{
ASSERT(current);
// NOTE: Kernel-only regions should never be cloned.
ASSERT(is_user_accessible());
if (m_shared || (is_readable() && !is_writable())) {
#ifdef MM_DEBUG
dbgprintf("%s<%u> Region::clone(): sharing %s (V%p)\n",
current->process().name().characters(),
current->pid(),
m_name.characters(),
vaddr().get());
#endif
// Create a new region backed by the same VMObject.
return Region::create_user_accessible(m_range, m_vmobject, m_offset_in_vmo, m_name, m_access);
}
#ifdef MM_DEBUG
dbgprintf("%s<%u> Region::clone(): cowing %s (V%p)\n",
current->process().name().characters(),
current->pid(),
m_name.characters(),
vaddr().get());
#endif
// Set up a COW region. The parent (this) region becomes COW as well!
ensure_cow_map().fill(true);
remap();
auto clone_region = Region::create_user_accessible(m_range, m_vmobject->clone(), m_offset_in_vmo, m_name, m_access);
clone_region->ensure_cow_map();
return clone_region;
}
int Region::commit()
{
InterruptDisabler disabler;
#ifdef MM_DEBUG
dbgprintf("MM: commit %u pages in Region %p (VMO=%p) at V%p\n", vmobject().page_count(), this, &vmobject(), vaddr().get());
#endif
for (size_t i = 0; i < page_count(); ++i) {
auto& vmobject_physical_page_entry = vmobject().physical_pages()[first_page_index() + i];
if (!vmobject_physical_page_entry.is_null())
continue;
auto physical_page = MM.allocate_user_physical_page(MemoryManager::ShouldZeroFill::Yes);
if (!physical_page) {
kprintf("MM: commit was unable to allocate a physical page\n");
return -ENOMEM;
}
vmobject_physical_page_entry = move(physical_page);
remap_page(i);
}
return 0;
}
size_t Region::amount_resident() const
{
size_t bytes = 0;
for (size_t i = 0; i < page_count(); ++i) {
if (m_vmobject->physical_pages()[first_page_index() + i])
bytes += PAGE_SIZE;
}
return bytes;
}
size_t Region::amount_shared() const
{
size_t bytes = 0;
for (size_t i = 0; i < page_count(); ++i) {
auto& physical_page = m_vmobject->physical_pages()[first_page_index() + i];
if (physical_page && physical_page->ref_count() > 1)
bytes += PAGE_SIZE;
}
return bytes;
}
NonnullOwnPtr<Region> Region::create_user_accessible(const Range& range, const StringView& name, u8 access)
{
auto region = make<Region>(range, name, access);
region->m_user_accessible = true;
return region;
}
NonnullOwnPtr<Region> Region::create_user_accessible(const Range& range, NonnullRefPtr<VMObject> vmobject, size_t offset_in_vmobject, const StringView& name, u8 access)
{
auto region = make<Region>(range, move(vmobject), offset_in_vmobject, name, access);
region->m_user_accessible = true;
return region;
}
NonnullOwnPtr<Region> Region::create_user_accessible(const Range& range, NonnullRefPtr<Inode> inode, const StringView& name, u8 access)
{
auto region = make<Region>(range, move(inode), name, access);
region->m_user_accessible = true;
return region;
}
NonnullOwnPtr<Region> Region::create_kernel_only(const Range& range, const StringView& name, u8 access)
{
auto region = make<Region>(range, name, access);
region->m_user_accessible = false;
return region;
}
bool Region::should_cow(size_t page_index) const
{
if (m_shared)
return false;
return m_cow_map && m_cow_map->get(page_index);
}
void Region::set_should_cow(size_t page_index, bool cow)
{
ASSERT(!m_shared);
ensure_cow_map().set(page_index, cow);
}
Bitmap& Region::ensure_cow_map() const
{
if (!m_cow_map)
m_cow_map = make<Bitmap>(page_count(), true);
return *m_cow_map;
}
void Region::remap_page(size_t index)
{
ASSERT(m_page_directory);
InterruptDisabler disabler;
auto page_vaddr = vaddr().offset(index * PAGE_SIZE);
auto& pte = MM.ensure_pte(*m_page_directory, page_vaddr);
auto& physical_page = vmobject().physical_pages()[first_page_index() + index];
ASSERT(physical_page);
pte.set_physical_page_base(physical_page->paddr().get());
pte.set_present(true);
if (should_cow(index))
pte.set_writable(false);
else
pte.set_writable(is_writable());
pte.set_user_allowed(is_user_accessible());
m_page_directory->flush(page_vaddr);
#ifdef MM_DEBUG
dbg() << "MM: >> region.remap_page (PD=" << m_page_directory->cr3() << ", PTE=" << (void*)pte.raw() << "{" << &pte << "}) " << name() << " " << page_vaddr << " => " << physical_page->paddr() << " (@" << physical_page.ptr() << ")";
#endif
}
void Region::unmap(ShouldDeallocateVirtualMemoryRange deallocate_range)
{
InterruptDisabler disabler;
ASSERT(m_page_directory);
for (size_t i = 0; i < page_count(); ++i) {
auto vaddr = this->vaddr().offset(i * PAGE_SIZE);
auto& pte = MM.ensure_pte(*m_page_directory, vaddr);
pte.set_physical_page_base(0);
pte.set_present(false);
pte.set_writable(false);
pte.set_user_allowed(false);
m_page_directory->flush(vaddr);
#ifdef MM_DEBUG
auto& physical_page = vmobject().physical_pages()[first_page_index() + i];
dbgprintf("MM: >> Unmapped V%p => P%p <<\n", vaddr.get(), physical_page ? physical_page->paddr().get() : 0);
#endif
}
if (deallocate_range == ShouldDeallocateVirtualMemoryRange::Yes)
m_page_directory->range_allocator().deallocate(range());
m_page_directory = nullptr;
}
void Region::map(PageDirectory& page_directory)
{
ASSERT(!m_page_directory || m_page_directory == &page_directory);
InterruptDisabler disabler;
m_page_directory = page_directory;
#ifdef MM_DEBUG
dbgprintf("MM: map_region_at_address will map VMO pages %u - %u (VMO page count: %u)\n", first_page_index(), last_page_index(), vmobject().page_count());
#endif
for (size_t i = 0; i < page_count(); ++i) {
auto page_vaddr = vaddr().offset(i * PAGE_SIZE);
auto& pte = MM.ensure_pte(page_directory, page_vaddr);
auto& physical_page = vmobject().physical_pages()[first_page_index() + i];
if (physical_page) {
pte.set_physical_page_base(physical_page->paddr().get());
pte.set_present(true); // FIXME: Maybe we should use the is_readable flag here?
if (should_cow(i))
pte.set_writable(false);
else
pte.set_writable(is_writable());
} else {
pte.set_physical_page_base(0);
pte.set_present(false);
pte.set_writable(is_writable());
}
pte.set_user_allowed(is_user_accessible());
page_directory.flush(page_vaddr);
#ifdef MM_DEBUG
dbgprintf("MM: >> map_region_at_address (PD=%p) '%s' V%p => P%p (@%p)\n", &page_directory, name().characters(), page_vaddr.get(), physical_page ? physical_page->paddr().get() : 0, physical_page.ptr());
#endif
}
}
void Region::remap()
{
ASSERT(m_page_directory);
map(*m_page_directory);
}
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