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serenity/Kernel/Memory/PageDirectory.cpp
Andreas Kling 79fa9765ca Kernel: Replace KResult and KResultOr<T> with Error and ErrorOr<T> 
We now use AK::Error and AK::ErrorOr<T> in both kernel and userspace!
This was a slightly tedious refactoring that took a long time, so it's
not unlikely that some bugs crept in.

Nevertheless, it does pass basic functionality testing, and it's just
real nice to finally see the same pattern in all contexts. :^)
2021-11-08 01:10:53 +01:00

165 lines
5.9 KiB
C++
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/*
* Copyright (c) 2018-2021, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Memory.h>
#include <AK/Singleton.h>
#include <Kernel/Memory/MemoryManager.h>
#include <Kernel/Memory/PageDirectory.h>
#include <Kernel/Prekernel/Prekernel.h>
#include <Kernel/Process.h>
#include <Kernel/Random.h>
#include <Kernel/Sections.h>
extern u8 end_of_kernel_image[];
namespace Kernel::Memory {
static Singleton<IntrusiveRedBlackTree<&PageDirectory::m_tree_node>> s_cr3_map;
static IntrusiveRedBlackTree<&PageDirectory::m_tree_node>& cr3_map()
{
VERIFY_INTERRUPTS_DISABLED();
return *s_cr3_map;
}
RefPtr<PageDirectory> PageDirectory::find_by_cr3(FlatPtr cr3)
{
SpinlockLocker lock(s_mm_lock);
return cr3_map().find(cr3);
}
UNMAP_AFTER_INIT NonnullRefPtr<PageDirectory> PageDirectory::must_create_kernel_page_directory()
{
auto directory = adopt_ref_if_nonnull(new (nothrow) PageDirectory).release_nonnull();
// make sure this starts in a new page directory to make MemoryManager::initialize_physical_pages() happy
FlatPtr start_of_range = ((FlatPtr)end_of_kernel_image & ~(FlatPtr)0x1fffff) + 0x200000;
directory->m_range_allocator.initialize_with_range(VirtualAddress(start_of_range), KERNEL_PD_END - start_of_range);
return directory;
}
ErrorOr<NonnullRefPtr<PageDirectory>> PageDirectory::try_create_for_userspace(VirtualRangeAllocator const* parent_range_allocator)
{
constexpr FlatPtr userspace_range_base = 0x00800000;
FlatPtr const userspace_range_ceiling = USER_RANGE_CEILING;
auto directory = TRY(adopt_nonnull_ref_or_enomem(new (nothrow) PageDirectory));
if (parent_range_allocator) {
directory->m_range_allocator.initialize_from_parent(*parent_range_allocator);
} else {
size_t random_offset = (get_fast_random<u8>() % 32 * MiB) & PAGE_MASK;
u32 base = userspace_range_base + random_offset;
directory->m_range_allocator.initialize_with_range(VirtualAddress(base), userspace_range_ceiling - base);
}
// NOTE: Take the MM lock since we need it for quickmap.
SpinlockLocker lock(s_mm_lock);
#if ARCH(X86_64)
directory->m_pml4t = MM.allocate_user_physical_page();
if (!directory->m_pml4t)
return ENOMEM;
#endif
directory->m_directory_table = MM.allocate_user_physical_page();
if (!directory->m_directory_table)
return ENOMEM;
auto kernel_pd_index = (kernel_mapping_base >> 30) & 0x1ffu;
for (size_t i = 0; i < kernel_pd_index; i++) {
directory->m_directory_pages[i] = MM.allocate_user_physical_page();
if (!directory->m_directory_pages[i])
return ENOMEM;
}
// Share the top 1 GiB of kernel-only mappings (>=kernel_mapping_base)
directory->m_directory_pages[kernel_pd_index] = MM.kernel_page_directory().m_directory_pages[kernel_pd_index];
#if ARCH(X86_64)
{
auto& table = *(PageDirectoryPointerTable*)MM.quickmap_page(*directory->m_pml4t);
table.raw[0] = (FlatPtr)directory->m_directory_table->paddr().as_ptr() | 7;
MM.unquickmap_page();
}
#endif
{
auto& table = *(PageDirectoryPointerTable*)MM.quickmap_page(*directory->m_directory_table);
for (size_t i = 0; i < sizeof(m_directory_pages) / sizeof(m_directory_pages[0]); i++) {
if (directory->m_directory_pages[i]) {
#if ARCH(I386)
table.raw[i] = (FlatPtr)directory->m_directory_pages[i]->paddr().as_ptr() | 1;
#else
table.raw[i] = (FlatPtr)directory->m_directory_pages[i]->paddr().as_ptr() | 7;
#endif
}
}
// 2 ** MAXPHYADDR - 1
// Where MAXPHYADDR = physical_address_bit_width
u64 max_physical_address = (1ULL << Processor::current().physical_address_bit_width()) - 1;
// bit 63 = no execute
// bit 7 = page size
// bit 5 = accessed
// bit 4 = cache disable
// bit 3 = write through
// bit 2 = user/supervisor
// bit 1 = read/write
// bit 0 = present
constexpr u64 pdpte_bit_flags = 0x80000000000000BF;
// This is to notify us of bugs where we're:
// 1. Going over what the processor is capable of.
// 2. Writing into the reserved bits (51:MAXPHYADDR), where doing so throws a GPF
// when writing out the PDPT pointer to CR3.
// The reason we're not checking the page directory's physical address directly is because
// we're checking for sign extension when putting it into a PDPTE. See issue #4584.
for (auto table_entry : table.raw)
VERIFY((table_entry & ~pdpte_bit_flags) <= max_physical_address);
MM.unquickmap_page();
}
// Clone bottom 2 MiB of mappings from kernel_page_directory
PageDirectoryEntry buffer;
auto* kernel_pd = MM.quickmap_pd(MM.kernel_page_directory(), 0);
memcpy(&buffer, kernel_pd, sizeof(PageDirectoryEntry));
auto* new_pd = MM.quickmap_pd(*directory, 0);
memcpy(new_pd, &buffer, sizeof(PageDirectoryEntry));
cr3_map().insert(directory->cr3(), directory);
return directory;
}
PageDirectory::PageDirectory()
{
}
UNMAP_AFTER_INIT void PageDirectory::allocate_kernel_directory()
{
// Adopt the page tables already set up by boot.S
#if ARCH(X86_64)
dmesgln("MM: boot_pml4t @ {}", boot_pml4t);
m_pml4t = PhysicalPage::create(boot_pml4t, MayReturnToFreeList::No);
#endif
dmesgln("MM: boot_pdpt @ {}", boot_pdpt);
dmesgln("MM: boot_pd0 @ {}", boot_pd0);
dmesgln("MM: boot_pd_kernel @ {}", boot_pd_kernel);
m_directory_table = PhysicalPage::create(boot_pdpt, MayReturnToFreeList::No);
m_directory_pages[0] = PhysicalPage::create(boot_pd0, MayReturnToFreeList::No);
m_directory_pages[(kernel_mapping_base >> 30) & 0x1ff] = PhysicalPage::create(boot_pd_kernel, MayReturnToFreeList::No);
}
PageDirectory::~PageDirectory()
{
SpinlockLocker lock(s_mm_lock);
if (m_space)
cr3_map().remove(cr3());
}
}
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