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697c5ca5e5
The handling of page tables is very architecture specific, so belongs in the Arch directory. Some parts were already architecture-specific, however this commit moves the rest of the PageDirectory class into the Arch directory. While we're here the aarch64/PageDirectory.{h,cpp} files are updated to be aarch64 specific, by renaming some members and removing x86_64 specific code.
562 lines
20 KiB
C++
562 lines
20 KiB
C++
/*
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* Copyright (c) 2018-2022, Andreas Kling <kling@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/StringView.h>
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#include <Kernel/Arch/PageDirectory.h>
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#include <Kernel/Arch/PageFault.h>
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#include <Kernel/Debug.h>
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#include <Kernel/FileSystem/Inode.h>
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#include <Kernel/InterruptDisabler.h>
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#include <Kernel/Memory/AnonymousVMObject.h>
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#include <Kernel/Memory/MemoryManager.h>
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#include <Kernel/Memory/Region.h>
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#include <Kernel/Memory/SharedInodeVMObject.h>
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#include <Kernel/Panic.h>
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#include <Kernel/Process.h>
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#include <Kernel/Scheduler.h>
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#include <Kernel/Thread.h>
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namespace Kernel::Memory {
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Region::Region()
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: m_range(VirtualRange({}, 0))
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{
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}
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Region::Region(NonnullLockRefPtr<VMObject> vmobject, size_t offset_in_vmobject, OwnPtr<KString> name, Region::Access access, Cacheable cacheable, bool shared)
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: m_range(VirtualRange({}, 0))
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, m_offset_in_vmobject(offset_in_vmobject)
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, m_vmobject(move(vmobject))
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, m_name(move(name))
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, m_access(access | ((access & 0x7) << 4))
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, m_shared(shared)
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, m_cacheable(cacheable == Cacheable::Yes)
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{
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m_vmobject->add_region(*this);
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}
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Region::Region(VirtualRange const& range, NonnullLockRefPtr<VMObject> vmobject, size_t offset_in_vmobject, OwnPtr<KString> name, Region::Access access, Cacheable cacheable, bool shared)
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: m_range(range)
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, m_offset_in_vmobject(offset_in_vmobject)
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, m_vmobject(move(vmobject))
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, m_name(move(name))
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, m_access(access | ((access & 0x7) << 4))
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, m_shared(shared)
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, m_cacheable(cacheable == Cacheable::Yes)
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{
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VERIFY(m_range.base().is_page_aligned());
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VERIFY(m_range.size());
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VERIFY((m_range.size() % PAGE_SIZE) == 0);
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m_vmobject->add_region(*this);
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}
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Region::~Region()
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{
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if (is_writable() && vmobject().is_shared_inode()) {
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// FIXME: This is very aggressive. Find a way to do less work!
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(void)static_cast<SharedInodeVMObject&>(vmobject()).sync();
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}
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m_vmobject->remove_region(*this);
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if (m_page_directory) {
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SpinlockLocker pd_locker(m_page_directory->get_lock());
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if (!is_readable() && !is_writable() && !is_executable()) {
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// If the region is "PROT_NONE", we didn't map it in the first place.
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} else {
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unmap_with_locks_held(ShouldFlushTLB::Yes, pd_locker);
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VERIFY(!m_page_directory);
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}
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}
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if (is_kernel())
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MM.unregister_kernel_region(*this);
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}
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ErrorOr<NonnullOwnPtr<Region>> Region::create_unbacked()
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{
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return adopt_nonnull_own_or_enomem(new (nothrow) Region);
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}
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ErrorOr<NonnullOwnPtr<Region>> Region::create_unplaced(NonnullLockRefPtr<VMObject> vmobject, size_t offset_in_vmobject, OwnPtr<KString> name, Region::Access access, Cacheable cacheable, bool shared)
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{
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return adopt_nonnull_own_or_enomem(new (nothrow) Region(move(vmobject), offset_in_vmobject, move(name), access, cacheable, shared));
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}
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ErrorOr<NonnullOwnPtr<Region>> Region::try_clone()
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{
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VERIFY(Process::has_current());
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if (m_shared) {
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VERIFY(!m_stack);
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if (vmobject().is_inode())
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VERIFY(vmobject().is_shared_inode());
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// Create a new region backed by the same VMObject.
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OwnPtr<KString> region_name;
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if (m_name)
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region_name = TRY(m_name->try_clone());
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auto region = TRY(Region::try_create_user_accessible(
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m_range, vmobject(), m_offset_in_vmobject, move(region_name), access(), m_cacheable ? Cacheable::Yes : Cacheable::No, m_shared));
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region->set_mmap(m_mmap, m_mmapped_from_readable, m_mmapped_from_writable);
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region->set_shared(m_shared);
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region->set_syscall_region(is_syscall_region());
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return region;
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}
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if (vmobject().is_inode())
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VERIFY(vmobject().is_private_inode());
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auto vmobject_clone = TRY(vmobject().try_clone());
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// Set up a COW region. The parent (this) region becomes COW as well!
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if (is_writable())
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remap();
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OwnPtr<KString> clone_region_name;
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if (m_name)
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clone_region_name = TRY(m_name->try_clone());
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auto clone_region = TRY(Region::try_create_user_accessible(
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m_range, move(vmobject_clone), m_offset_in_vmobject, move(clone_region_name), access(), m_cacheable ? Cacheable::Yes : Cacheable::No, m_shared));
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if (m_stack) {
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VERIFY(vmobject().is_anonymous());
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clone_region->set_stack(true);
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}
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clone_region->set_syscall_region(is_syscall_region());
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clone_region->set_mmap(m_mmap, m_mmapped_from_readable, m_mmapped_from_writable);
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return clone_region;
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}
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void Region::set_vmobject(NonnullLockRefPtr<VMObject>&& obj)
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{
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if (m_vmobject.ptr() == obj.ptr())
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return;
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m_vmobject->remove_region(*this);
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m_vmobject = move(obj);
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m_vmobject->add_region(*this);
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}
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size_t Region::cow_pages() const
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{
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if (!vmobject().is_anonymous())
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return 0;
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return static_cast<AnonymousVMObject const&>(vmobject()).cow_pages();
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}
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size_t Region::amount_dirty() const
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{
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if (!vmobject().is_inode())
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return amount_resident();
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return static_cast<InodeVMObject const&>(vmobject()).amount_dirty();
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}
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size_t Region::amount_resident() const
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{
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size_t bytes = 0;
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for (size_t i = 0; i < page_count(); ++i) {
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auto page = physical_page(i);
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if (page && !page->is_shared_zero_page() && !page->is_lazy_committed_page())
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bytes += PAGE_SIZE;
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}
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return bytes;
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}
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size_t Region::amount_shared() const
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{
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size_t bytes = 0;
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for (size_t i = 0; i < page_count(); ++i) {
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auto page = physical_page(i);
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if (page && page->ref_count() > 1 && !page->is_shared_zero_page() && !page->is_lazy_committed_page())
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bytes += PAGE_SIZE;
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}
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return bytes;
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}
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ErrorOr<NonnullOwnPtr<Region>> Region::try_create_user_accessible(VirtualRange const& range, NonnullLockRefPtr<VMObject> vmobject, size_t offset_in_vmobject, OwnPtr<KString> name, Region::Access access, Cacheable cacheable, bool shared)
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{
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return adopt_nonnull_own_or_enomem(new (nothrow) Region(range, move(vmobject), offset_in_vmobject, move(name), access, cacheable, shared));
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}
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bool Region::should_cow(size_t page_index) const
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{
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if (!vmobject().is_anonymous())
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return false;
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return static_cast<AnonymousVMObject const&>(vmobject()).should_cow(first_page_index() + page_index, m_shared);
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}
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ErrorOr<void> Region::set_should_cow(size_t page_index, bool cow)
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{
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VERIFY(!m_shared);
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if (vmobject().is_anonymous())
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TRY(static_cast<AnonymousVMObject&>(vmobject()).set_should_cow(first_page_index() + page_index, cow));
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return {};
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}
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bool Region::map_individual_page_impl(size_t page_index, RefPtr<PhysicalPage> page)
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{
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VERIFY(m_page_directory->get_lock().is_locked_by_current_processor());
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auto page_vaddr = vaddr_from_page_index(page_index);
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bool user_allowed = page_vaddr.get() >= USER_RANGE_BASE && is_user_address(page_vaddr);
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if (is_mmap() && !user_allowed) {
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PANIC("About to map mmap'ed page at a kernel address");
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}
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auto* pte = MM.ensure_pte(*m_page_directory, page_vaddr);
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if (!pte)
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return false;
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if (!page || (!is_readable() && !is_writable())) {
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pte->clear();
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return true;
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}
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pte->set_cache_disabled(!m_cacheable);
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pte->set_physical_page_base(page->paddr().get());
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pte->set_present(true);
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if (page->is_shared_zero_page() || page->is_lazy_committed_page() || should_cow(page_index))
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pte->set_writable(false);
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else
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pte->set_writable(is_writable());
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if (Processor::current().has_nx())
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pte->set_execute_disabled(!is_executable());
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if (Processor::current().has_pat())
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pte->set_pat(is_write_combine());
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pte->set_user_allowed(user_allowed);
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return true;
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}
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bool Region::map_individual_page_impl(size_t page_index)
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{
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RefPtr<PhysicalPage> page;
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{
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SpinlockLocker vmobject_locker(vmobject().m_lock);
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page = physical_page(page_index);
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}
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return map_individual_page_impl(page_index, page);
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}
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bool Region::remap_vmobject_page(size_t page_index, NonnullRefPtr<PhysicalPage> physical_page)
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{
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SpinlockLocker page_lock(m_page_directory->get_lock());
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// NOTE: `page_index` is a VMObject page index, so first we convert it to a Region page index.
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if (!translate_vmobject_page(page_index))
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return false;
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bool success = map_individual_page_impl(page_index, physical_page);
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MemoryManager::flush_tlb(m_page_directory, vaddr_from_page_index(page_index));
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return success;
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}
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void Region::unmap(ShouldFlushTLB should_flush_tlb)
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{
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if (!m_page_directory)
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return;
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SpinlockLocker pd_locker(m_page_directory->get_lock());
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unmap_with_locks_held(should_flush_tlb, pd_locker);
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}
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void Region::unmap_with_locks_held(ShouldFlushTLB should_flush_tlb, SpinlockLocker<RecursiveSpinlock<LockRank::None>>&)
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{
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if (!m_page_directory)
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return;
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size_t count = page_count();
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for (size_t i = 0; i < count; ++i) {
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auto vaddr = vaddr_from_page_index(i);
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MM.release_pte(*m_page_directory, vaddr, i == count - 1 ? MemoryManager::IsLastPTERelease::Yes : MemoryManager::IsLastPTERelease::No);
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}
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if (should_flush_tlb == ShouldFlushTLB::Yes)
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MemoryManager::flush_tlb(m_page_directory, vaddr(), page_count());
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m_page_directory = nullptr;
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}
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void Region::set_page_directory(PageDirectory& page_directory)
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{
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VERIFY(!m_page_directory || m_page_directory == &page_directory);
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m_page_directory = page_directory;
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}
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ErrorOr<void> Region::map(PageDirectory& page_directory, ShouldFlushTLB should_flush_tlb)
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{
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SpinlockLocker page_lock(page_directory.get_lock());
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// FIXME: Find a better place for this sanity check(?)
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if (is_user() && !is_shared()) {
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VERIFY(!vmobject().is_shared_inode());
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}
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set_page_directory(page_directory);
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size_t page_index = 0;
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while (page_index < page_count()) {
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if (!map_individual_page_impl(page_index))
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break;
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++page_index;
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}
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if (page_index > 0) {
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if (should_flush_tlb == ShouldFlushTLB::Yes)
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MemoryManager::flush_tlb(m_page_directory, vaddr(), page_index);
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if (page_index == page_count())
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return {};
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}
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return ENOMEM;
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}
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void Region::remap()
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{
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VERIFY(m_page_directory);
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auto result = map(*m_page_directory);
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if (result.is_error())
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TODO();
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}
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ErrorOr<void> Region::set_write_combine(bool enable)
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{
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if (enable && !Processor::current().has_pat()) {
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dbgln("PAT is not supported, implement MTRR fallback if available");
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return Error::from_errno(ENOTSUP);
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}
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m_write_combine = enable;
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remap();
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return {};
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}
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void Region::clear_to_zero()
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{
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VERIFY(vmobject().is_anonymous());
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SpinlockLocker locker(vmobject().m_lock);
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for (auto i = 0u; i < page_count(); ++i) {
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auto& page = physical_page_slot(i);
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VERIFY(page);
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if (page->is_shared_zero_page())
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continue;
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page = MM.shared_zero_page();
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}
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}
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PageFaultResponse Region::handle_fault(PageFault const& fault)
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{
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auto page_index_in_region = page_index_from_address(fault.vaddr());
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if (fault.type() == PageFault::Type::PageNotPresent) {
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if (fault.is_read() && !is_readable()) {
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dbgln("NP(non-readable) fault in Region({})[{}]", this, page_index_in_region);
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return PageFaultResponse::ShouldCrash;
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}
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if (fault.is_write() && !is_writable()) {
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dbgln("NP(non-writable) write fault in Region({})[{}] at {}", this, page_index_in_region, fault.vaddr());
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return PageFaultResponse::ShouldCrash;
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}
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if (vmobject().is_inode()) {
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dbgln_if(PAGE_FAULT_DEBUG, "NP(inode) fault in Region({})[{}]", this, page_index_in_region);
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return handle_inode_fault(page_index_in_region);
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}
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SpinlockLocker vmobject_locker(vmobject().m_lock);
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auto& page_slot = physical_page_slot(page_index_in_region);
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if (page_slot->is_lazy_committed_page()) {
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auto page_index_in_vmobject = translate_to_vmobject_page(page_index_in_region);
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VERIFY(m_vmobject->is_anonymous());
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page_slot = static_cast<AnonymousVMObject&>(*m_vmobject).allocate_committed_page({});
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if (!remap_vmobject_page(page_index_in_vmobject, *page_slot))
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return PageFaultResponse::OutOfMemory;
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return PageFaultResponse::Continue;
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}
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dbgln("BUG! Unexpected NP fault at {}", fault.vaddr());
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dbgln(" - Physical page slot pointer: {:p}", page_slot.ptr());
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if (page_slot) {
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dbgln(" - Physical page: {}", page_slot->paddr());
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dbgln(" - Lazy committed: {}", page_slot->is_lazy_committed_page());
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dbgln(" - Shared zero: {}", page_slot->is_shared_zero_page());
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}
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return PageFaultResponse::ShouldCrash;
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}
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VERIFY(fault.type() == PageFault::Type::ProtectionViolation);
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if (fault.access() == PageFault::Access::Write && is_writable() && should_cow(page_index_in_region)) {
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dbgln_if(PAGE_FAULT_DEBUG, "PV(cow) fault in Region({})[{}] at {}", this, page_index_in_region, fault.vaddr());
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auto phys_page = physical_page(page_index_in_region);
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if (phys_page->is_shared_zero_page() || phys_page->is_lazy_committed_page()) {
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dbgln_if(PAGE_FAULT_DEBUG, "NP(zero) fault in Region({})[{}] at {}", this, page_index_in_region, fault.vaddr());
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return handle_zero_fault(page_index_in_region, *phys_page);
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}
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return handle_cow_fault(page_index_in_region);
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}
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dbgln("PV(error) fault in Region({})[{}] at {}", this, page_index_in_region, fault.vaddr());
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return PageFaultResponse::ShouldCrash;
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}
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PageFaultResponse Region::handle_zero_fault(size_t page_index_in_region, PhysicalPage& page_in_slot_at_time_of_fault)
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{
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VERIFY(vmobject().is_anonymous());
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auto page_index_in_vmobject = translate_to_vmobject_page(page_index_in_region);
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auto current_thread = Thread::current();
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if (current_thread != nullptr)
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current_thread->did_zero_fault();
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RefPtr<PhysicalPage> new_physical_page;
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if (page_in_slot_at_time_of_fault.is_lazy_committed_page()) {
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VERIFY(m_vmobject->is_anonymous());
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new_physical_page = static_cast<AnonymousVMObject&>(*m_vmobject).allocate_committed_page({});
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dbgln_if(PAGE_FAULT_DEBUG, " >> ALLOCATED COMMITTED {}", new_physical_page->paddr());
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} else {
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auto page_or_error = MM.allocate_physical_page(MemoryManager::ShouldZeroFill::Yes);
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if (page_or_error.is_error()) {
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dmesgln("MM: handle_zero_fault was unable to allocate a physical page");
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return PageFaultResponse::OutOfMemory;
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}
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new_physical_page = page_or_error.release_value();
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dbgln_if(PAGE_FAULT_DEBUG, " >> ALLOCATED {}", new_physical_page->paddr());
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}
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bool already_handled = false;
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{
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SpinlockLocker locker(vmobject().m_lock);
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auto& page_slot = physical_page_slot(page_index_in_region);
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already_handled = !page_slot.is_null() && !page_slot->is_shared_zero_page() && !page_slot->is_lazy_committed_page();
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if (already_handled) {
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// Someone else already faulted in a new page in this slot. That's fine, we'll just remap with their page.
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new_physical_page = page_slot;
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} else {
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// Install the newly allocated page into the VMObject.
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page_slot = new_physical_page;
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}
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}
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if (!remap_vmobject_page(page_index_in_vmobject, *new_physical_page)) {
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dmesgln("MM: handle_zero_fault was unable to allocate a page table to map {}", new_physical_page);
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return PageFaultResponse::OutOfMemory;
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}
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return PageFaultResponse::Continue;
|
|
}
|
|
|
|
PageFaultResponse Region::handle_cow_fault(size_t page_index_in_region)
|
|
{
|
|
auto current_thread = Thread::current();
|
|
if (current_thread)
|
|
current_thread->did_cow_fault();
|
|
|
|
if (!vmobject().is_anonymous())
|
|
return PageFaultResponse::ShouldCrash;
|
|
|
|
auto page_index_in_vmobject = translate_to_vmobject_page(page_index_in_region);
|
|
auto response = reinterpret_cast<AnonymousVMObject&>(vmobject()).handle_cow_fault(page_index_in_vmobject, vaddr().offset(page_index_in_region * PAGE_SIZE));
|
|
if (!remap_vmobject_page(page_index_in_vmobject, *vmobject().physical_pages()[page_index_in_vmobject]))
|
|
return PageFaultResponse::OutOfMemory;
|
|
return response;
|
|
}
|
|
|
|
PageFaultResponse Region::handle_inode_fault(size_t page_index_in_region)
|
|
{
|
|
VERIFY(vmobject().is_inode());
|
|
VERIFY(!g_scheduler_lock.is_locked_by_current_processor());
|
|
|
|
auto& inode_vmobject = static_cast<InodeVMObject&>(vmobject());
|
|
|
|
auto page_index_in_vmobject = translate_to_vmobject_page(page_index_in_region);
|
|
auto& vmobject_physical_page_slot = inode_vmobject.physical_pages()[page_index_in_vmobject];
|
|
|
|
{
|
|
// NOTE: The VMObject lock is required when manipulating the VMObject's physical page slot.
|
|
SpinlockLocker locker(inode_vmobject.m_lock);
|
|
if (!vmobject_physical_page_slot.is_null()) {
|
|
dbgln_if(PAGE_FAULT_DEBUG, "handle_inode_fault: Page faulted in by someone else before reading, remapping.");
|
|
if (!remap_vmobject_page(page_index_in_vmobject, *vmobject_physical_page_slot))
|
|
return PageFaultResponse::OutOfMemory;
|
|
return PageFaultResponse::Continue;
|
|
}
|
|
}
|
|
|
|
dbgln_if(PAGE_FAULT_DEBUG, "Inode fault in {} page index: {}", name(), page_index_in_region);
|
|
|
|
auto current_thread = Thread::current();
|
|
if (current_thread)
|
|
current_thread->did_inode_fault();
|
|
|
|
u8 page_buffer[PAGE_SIZE];
|
|
auto& inode = inode_vmobject.inode();
|
|
|
|
auto buffer = UserOrKernelBuffer::for_kernel_buffer(page_buffer);
|
|
auto result = inode.read_bytes(page_index_in_vmobject * PAGE_SIZE, PAGE_SIZE, buffer, nullptr);
|
|
|
|
if (result.is_error()) {
|
|
dmesgln("handle_inode_fault: Error ({}) while reading from inode", result.error());
|
|
return PageFaultResponse::ShouldCrash;
|
|
}
|
|
|
|
auto nread = result.value();
|
|
// Note: If we received 0, it means we are at the end of file or after it,
|
|
// which means we should return bus error.
|
|
if (nread == 0)
|
|
return PageFaultResponse::BusError;
|
|
|
|
if (nread < PAGE_SIZE) {
|
|
// If we read less than a page, zero out the rest to avoid leaking uninitialized data.
|
|
memset(page_buffer + nread, 0, PAGE_SIZE - nread);
|
|
}
|
|
|
|
// Allocate a new physical page, and copy the read inode contents into it.
|
|
auto new_physical_page_or_error = MM.allocate_physical_page(MemoryManager::ShouldZeroFill::No);
|
|
if (new_physical_page_or_error.is_error()) {
|
|
dmesgln("MM: handle_inode_fault was unable to allocate a physical page");
|
|
return PageFaultResponse::OutOfMemory;
|
|
}
|
|
auto new_physical_page = new_physical_page_or_error.release_value();
|
|
{
|
|
InterruptDisabler disabler;
|
|
u8* dest_ptr = MM.quickmap_page(*new_physical_page);
|
|
memcpy(dest_ptr, page_buffer, PAGE_SIZE);
|
|
MM.unquickmap_page();
|
|
}
|
|
|
|
{
|
|
// NOTE: The VMObject lock is required when manipulating the VMObject's physical page slot.
|
|
SpinlockLocker locker(inode_vmobject.m_lock);
|
|
|
|
if (!vmobject_physical_page_slot.is_null()) {
|
|
// Someone else faulted in this page while we were reading from the inode.
|
|
// No harm done (other than some duplicate work), remap the page here and return.
|
|
dbgln_if(PAGE_FAULT_DEBUG, "handle_inode_fault: Page faulted in by someone else, remapping.");
|
|
if (!remap_vmobject_page(page_index_in_vmobject, *vmobject_physical_page_slot))
|
|
return PageFaultResponse::OutOfMemory;
|
|
return PageFaultResponse::Continue;
|
|
}
|
|
|
|
vmobject_physical_page_slot = new_physical_page;
|
|
}
|
|
|
|
if (!remap_vmobject_page(page_index_in_vmobject, *vmobject_physical_page_slot))
|
|
return PageFaultResponse::OutOfMemory;
|
|
|
|
return PageFaultResponse::Continue;
|
|
}
|
|
|
|
RefPtr<PhysicalPage> Region::physical_page(size_t index) const
|
|
{
|
|
SpinlockLocker vmobject_locker(vmobject().m_lock);
|
|
VERIFY(index < page_count());
|
|
return vmobject().physical_pages()[first_page_index() + index];
|
|
}
|
|
|
|
RefPtr<PhysicalPage>& Region::physical_page_slot(size_t index)
|
|
{
|
|
VERIFY(vmobject().m_lock.is_locked_by_current_processor());
|
|
VERIFY(index < page_count());
|
|
return vmobject().physical_pages()[first_page_index() + index];
|
|
}
|
|
|
|
}
|