MMU: Add functions to create and delete userspace page directories
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c53bba0392
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31ea030c7f
GPG Key ID:
B8A7D06E42258954
@ -31,6 +31,7 @@ namespace MMU
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void flush_all();
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Result<PageDirectory*> create_page_directory_for_userspace();
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Result<void> delete_userspace_page_directory(PageDirectory* directory);
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void setup_initial_page_directory();
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PageDirectory* kernel_page_directory();
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@ -2,6 +2,7 @@
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#include "memory/MemoryManager.h"
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#include <luna/CString.h>
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#include <luna/Result.h>
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#include <luna/ScopeGuard.h>
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#include <luna/SystemError.h>
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#pragma GCC push_options
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@ -50,11 +51,16 @@ namespace MMU
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return l4_table()->entries[l4_index(addr)];
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}
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constexpr PageDirectory* raw_l3_table(u64 l4)
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{
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const u64 l3 = sign | (rindex << 39) | (rindex << 30) | (rindex << 21) | (l4 << 12);
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return (PageDirectory*)l3;
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}
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constexpr PageDirectory* l3_table(u64 addr)
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{
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const u64 l4 = l4_index(addr);
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const u64 l3 = sign | (rindex << 39) | (rindex << 30) | (rindex << 21) | (l4 << 12);
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return (PageDirectory*)l3;
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return raw_l3_table(l4);
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}
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constexpr u64 l3_index(u64 addr)
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@ -67,12 +73,17 @@ namespace MMU
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return l3_table(addr)->entries[l3_index(addr)];
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}
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constexpr PageDirectory* raw_l2_table(u64 l4, u64 l3)
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{
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const u64 l2 = sign | (rindex << 39) | (rindex << 30) | (l4 << 21) | (l3 << 12);
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return (PageDirectory*)l2;
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}
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constexpr PageDirectory* l2_table(u64 addr)
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{
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const u64 l4 = l4_index(addr);
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const u64 l3 = l3_index(addr);
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const u64 l2 = sign | (rindex << 39) | (rindex << 30) | (l4 << 21) | (l3 << 12);
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return (PageDirectory*)l2;
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return raw_l2_table(l4, l3);
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}
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constexpr u64 l2_index(u64 addr)
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@ -85,13 +96,18 @@ namespace MMU
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return l2_table(addr)->entries[l2_index(addr)];
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}
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constexpr PageDirectory* raw_l1_table(u64 l4, u64 l3, u64 l2)
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{
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const u64 l1 = sign | (rindex << 39) | (l4 << 30) | (l3 << 21) | (l2 << 12);
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return (PageDirectory*)l1;
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}
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constexpr PageDirectory* l1_table(u64 addr)
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{
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const u64 l4 = l4_index(addr);
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const u64 l3 = l3_index(addr);
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const u64 l2 = l2_index(addr);
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const u64 l1 = sign | (rindex << 39) | (l4 << 30) | (l3 << 21) | (l2 << 12);
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return (PageDirectory*)l1;
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return raw_l1_table(l4, l3, l2);
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}
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constexpr u64 l1_index(u64 addr)
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@ -270,6 +286,96 @@ namespace MMU
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flush_all();
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}
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Result<PageDirectory*> create_page_directory_for_userspace()
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{
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u64 directory_virt = TRY(MemoryManager::alloc_for_kernel(1, MMU::ReadWrite | MMU::NoExecute));
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u64 directory_phys = MMU::get_physical(directory_virt).value();
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PageDirectory* directory = (PageDirectory*)directory_virt;
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memset(directory, 0, ARCH_PAGE_SIZE);
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PageTableEntry& recursive_entry = directory->entries[rindex];
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recursive_entry.read_write = true;
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recursive_entry.present = true;
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recursive_entry.set_address(directory_phys);
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directory->entries[511] = g_kernel_directory->entries[511];
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// From now on, we're only going to use the physical address, since accessing the PageDirectory will be dealt
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// with using recursive mapping. So let's make sure we don't leak any VM.
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MemoryManager::unmap_weak_and_free_vm(directory_virt, 1);
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return (PageDirectory*)directory_phys;
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}
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Result<void> delete_userspace_page_directory(PageDirectory* directory)
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{
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check(directory);
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// Needed in order to access page tables using the recursive mapping system.
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switch_page_directory(directory);
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auto guard = make_scope_guard([&] {
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check(g_kernel_directory);
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switch_page_directory(g_kernel_directory);
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MemoryManager::free_frame((u64)directory);
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});
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PageDirectory* table = l4_table();
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// Let's iterate over every top-level entry, skipping the last two entries (recursive mapping and kernel pages)
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for (u64 i = 0; i < 510; i++)
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{
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PageTableEntry& l4 = table->entries[i];
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if (!l4.present) continue;
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PageDirectory* pdp = raw_l3_table(i);
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for (u64 j = 0; j < 512; j++)
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{
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PageTableEntry& l3 = pdp->entries[j];
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if (!l3.present) continue;
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if (l3.larger_pages)
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{
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// FIXME: Maybe we shouldn't delete some pages in an address space, such as shared memory.
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TRY(MemoryManager::free_frame(l3.get_address()));
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}
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PageDirectory* pd = raw_l2_table(i, j);
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for (u64 k = 0; k < 512; k++)
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{
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PageTableEntry& l2 = pd->entries[k];
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if (!l2.present) continue;
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if (l2.larger_pages)
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{
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// FIXME: Maybe we shouldn't delete some pages in an address space, such as shared memory.
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TRY(MemoryManager::free_frame(l2.get_address()));
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}
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PageDirectory* pt = raw_l1_table(i, j, k);
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for (u64 l = 0; l < 512; l++)
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{
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PageTableEntry& l1 = pt->entries[l];
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if (!l1.present) continue;
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// FIXME: Maybe we shouldn't delete some pages in an address space, such as shared memory.
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TRY(MemoryManager::free_frame(l1.get_address()));
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}
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TRY(MemoryManager::free_frame(l2.get_address()));
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}
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TRY(MemoryManager::free_frame(l3.get_address()));
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}
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TRY(MemoryManager::free_frame(l4.get_address()));
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}
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// No need to clean up manually, the ScopeGuard we set up earlier will do that for us.
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return {};
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}
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PageDirectory* kernel_page_directory()
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{
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return g_kernel_directory;
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