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banan-os/kernel/arch/x86_64/MMU.cpp

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Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
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#include <BAN/Errors.h>
Kernel: Move kmalloc and MMU to Memory directory
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#include <kernel/Memory/kmalloc.h>
#include <kernel/Memory/MMU.h>
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
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Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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#define FLAGS_MASK (PAGE_SIZE - 1)
#define PAGE_MASK (~FLAGS_MASK)
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
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#define CLEANUP_STRUCTURE(s) \
for (uint64_t i = 0; i < 512; i++) \
Kernel: MMU now takes flags when allocating pages
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if (s[i] & Flags::Present) \
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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return; \
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
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kfree(s)
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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extern uint8_t g_kernel_end[];
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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namespace Kernel
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
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{
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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static MMU* s_instance = nullptr;
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
2023-01-25 19:05:47 +02:00
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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void MMU::initialize()
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
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{
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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ASSERT(s_instance == nullptr);
s_instance = new MMU();
ASSERT(s_instance);
s_instance->initialize_kernel();
s_instance->load();
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
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}
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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MMU& MMU::get()
{
ASSERT(s_instance);
return *s_instance;
}
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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static uint64_t* allocate_page_aligned_page()
{
void* page = kmalloc(PAGE_SIZE, PAGE_SIZE);
ASSERT(page);
memset(page, 0, PAGE_SIZE);
return (uint64_t*)page;
}
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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void MMU::initialize_kernel()
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{
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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m_highest_paging_struct = allocate_page_aligned_page();
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memset(m_highest_paging_struct, 0, PAGE_SIZE);
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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Kernel: 64 bit MMU now properly identity maps kernel
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// Identity map 4 KiB -> kernel end. We don't map the first page since nullptr derefs should
// page fault. Also there isn't anything useful in that memory.
identity_map_range(PAGE_SIZE, (uintptr_t)g_kernel_end, Flags::ReadWrite | Flags::Present);
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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}
MMU::MMU()
{
if (s_instance == nullptr)
return;
// Here we copy the s_instances paging structs since they are
// global for every process
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t* global_pml4 = s_instance->m_highest_paging_struct;
uint64_t* pml4 = allocate_page_aligned_page();
for (uint32_t pml4e = 0; pml4e < 512; pml4e++)
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{
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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if (!(global_pml4[pml4e] & Flags::Present))
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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continue;
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t* global_pdpt = (uint64_t*)(global_pml4[pml4e] & PAGE_MASK);
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t* pdpt = allocate_page_aligned_page();
pml4[pml4e] = (uint64_t)pdpt | (global_pml4[pml4e] & FLAGS_MASK);
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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for (uint32_t pdpte = 0; pdpte < 512; pdpte++)
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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{
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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if (!(global_pdpt[pdpte] & Flags::Present))
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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continue;
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t* global_pd = (uint64_t*)(global_pdpt[pdpte] & PAGE_MASK);
uint64_t* pd = allocate_page_aligned_page();
pdpt[pdpte] = (uint64_t)pd | (global_pdpt[pdpte] & FLAGS_MASK);
for (uint32_t pde = 0; pde < 512; pde++)
{
if (!(global_pd[pde] & Flags::Present))
continue;
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t* global_pt = (uint64_t*)(global_pd[pde] & PAGE_MASK);
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t* pt = allocate_page_aligned_page();
pd[pde] = (uint64_t)pt | (global_pd[pde] & FLAGS_MASK);
memcpy(pt, global_pt, PAGE_SIZE);
}
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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}
}
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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m_highest_paging_struct = pml4;
}
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
2023-01-25 19:05:47 +02:00
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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MMU::~MMU()
Kernel: Add constructor and destructor to MMU
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{
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t* pml4 = m_highest_paging_struct;
for (uint32_t pml4e = 0; pml4e < 512; pml4e++)
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{
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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if (!(pml4[pml4e] & Flags::Present))
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continue;
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t* pdpt = (uint64_t*)(pml4[pml4e] & PAGE_MASK);
for (uint32_t pdpte = 0; pdpte < 512; pdpte++)
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{
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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if (!(pdpt[pdpte] & Flags::Present))
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continue;
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t* pd = (uint64_t*)(pdpt[pdpte] & PAGE_MASK);
for (uint32_t pde = 0; pde < 512; pde++)
{
if (!(pd[pde] & Flags::Present))
continue;
kfree((void*)(pd[pde] & PAGE_MASK));
}
kfree(pd);
Kernel: Add constructor and destructor to MMU
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}
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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kfree(pdpt);
Kernel: Add constructor and destructor to MMU
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}
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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kfree(pml4);
Kernel: Add constructor and destructor to MMU
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}
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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void MMU::load()
{
asm volatile("movq %0, %%cr3" :: "r"(m_highest_paging_struct));
}
Kernel: Add barebones per process virtual addresses We now assign every (userspace) process its own MMU which we load in scheduler. This allows every process to have separate virtual address space. This is very hackish implementations but it works for now
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Kernel: 64 bit MMU now properly identity maps kernel
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void MMU::identity_map_page(paddr_t address, flags_t flags)
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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{
address &= PAGE_MASK;
map_page_at(address, address, flags);
}
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
2023-01-25 19:05:47 +02:00
Kernel: 64 bit MMU now properly identity maps kernel
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void MMU::identity_map_range(paddr_t address, size_t size, flags_t flags)
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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{
paddr_t s_page = address & PAGE_MASK;
paddr_t e_page = (address + size - 1) & PAGE_MASK;
for (paddr_t page = s_page; page <= e_page; page += PAGE_SIZE)
identity_map_page(page, flags);
}
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
2023-01-25 19:05:47 +02:00
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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void MMU::unmap_page(vaddr_t address)
{
ASSERT((address >> 48) == 0);
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
2023-01-25 19:05:47 +02:00
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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address &= PAGE_MASK;
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
2023-01-25 19:05:47 +02:00
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t pml4e = (address >> 39) & 0x1FF;
uint64_t pdpte = (address >> 30) & 0x1FF;
uint64_t pde = (address >> 21) & 0x1FF;
uint64_t pte = (address >> 12) & 0x1FF;
uint64_t* pml4 = m_highest_paging_struct;
if (!(pml4[pml4e] & Flags::Present))
return;
Kernel: Finally managed to get 64-bit working I had weird problems with interrupts but everything should work now
2023-01-25 19:05:47 +02:00
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t* pdpt = (uint64_t*)(pml4[pml4e] & PAGE_MASK);
if (!(pdpt[pdpte] & Flags::Present))
return;
Kernel: Add some bareboness functionality to map virtual addresses
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Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t* pd = (uint64_t*)(pdpt[pdpte] & PAGE_MASK);
if (!(pd[pde] & Flags::Present))
return;
Kernel: Add some bareboness functionality to map virtual addresses
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Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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uint64_t* pt = (uint64_t*)(pd[pde] & PAGE_MASK);
if (!(pt[pte] & Flags::Present))
return;
Kernel: Add some bareboness functionality to map virtual addresses
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Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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pt[pte] = 0;
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Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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CLEANUP_STRUCTURE(pt);
pd[pde] = 0;
CLEANUP_STRUCTURE(pd);
pdpt[pdpte] = 0;
CLEANUP_STRUCTURE(pdpt);
pml4[pml4e] = 0;
}
Kernel: Add some bareboness functionality to map virtual addresses
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Kernel: 64 bit MMU now properly identity maps kernel
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void MMU::unmap_range(vaddr_t address, size_t size)
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{
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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vaddr_t s_page = address & PAGE_MASK;
vaddr_t e_page = (address + size - 1) & PAGE_MASK;
for (vaddr_t page = s_page; page <= e_page; page += PAGE_SIZE)
unmap_page(page);
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}
Kernel: 64 bit MMU now properly identity maps kernel
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void MMU::map_page_at(paddr_t paddr, vaddr_t vaddr, flags_t flags)
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{
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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ASSERT((paddr >> 48) == 0);
ASSERT((vaddr >> 48) == 0);
ASSERT(paddr % PAGE_SIZE == 0);
ASSERT(vaddr % PAGE_SIZE == 0);;
ASSERT(flags & Flags::Present);
uint64_t pml4e = (vaddr >> 39) & 0x1FF;
uint64_t pdpte = (vaddr >> 30) & 0x1FF;
uint64_t pde = (vaddr >> 21) & 0x1FF;
uint64_t pte = (vaddr >> 12) & 0x1FF;
uint64_t* pml4 = m_highest_paging_struct;
if ((pml4[pml4e] & flags) != flags)
{
if (!(pml4[pml4e] & Flags::Present))
pml4[pml4e] = (uint64_t)allocate_page_aligned_page();
pml4[pml4e] = (pml4[pml4e] & PAGE_MASK) | flags;
}
uint64_t* pdpt = (uint64_t*)(pml4[pml4e] & PAGE_MASK);
if ((pdpt[pdpte] & flags) != flags)
{
if (!(pdpt[pdpte] & Flags::Present))
pdpt[pdpte] = (uint64_t)allocate_page_aligned_page();
pdpt[pdpte] = (pdpt[pdpte] & PAGE_MASK) | flags;
}
uint64_t* pd = (uint64_t*)(pdpt[pdpte] & PAGE_MASK);
if ((pd[pde] & flags) != flags)
{
if (!(pd[pde] & Flags::Present))
pd[pde] = (uint64_t)allocate_page_aligned_page();
pd[pde] = (pd[pde] & PAGE_MASK) | flags;
}
uint64_t* pt = (uint64_t*)(pd[pde] & PAGE_MASK);
if ((pt[pte] & flags) != flags)
pt[pte] = paddr | flags;
Kernel: Add some bareboness functionality to map virtual addresses
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}
Kernel: MMU can now provide info about virtual address space
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uint64_t MMU::get_page_data(vaddr_t address) const
Kernel: Add some bareboness functionality to map virtual addresses
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{
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ASSERT((address >> 48) == 0);
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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ASSERT(address % PAGE_SIZE == 0);
uint64_t pml4e = (address >> 39) & 0x1FF;
uint64_t pdpte = (address >> 30) & 0x1FF;
uint64_t pde = (address >> 21) & 0x1FF;
uint64_t pte = (address >> 12) & 0x1FF;
uint64_t* pml4 = m_highest_paging_struct;
if (!(pml4[pml4e] & Flags::Present))
return 0;
uint64_t* pdpt = (uint64_t*)(pml4[pml4e] & PAGE_MASK);
if (!(pdpt[pdpte] & Flags::Present))
return 0;
uint64_t* pd = (uint64_t*)(pdpt[pdpte] & PAGE_MASK);
Kernel: Add some bareboness functionality to map virtual addresses
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if (!(pd[pde] & Flags::Present))
Kernel: namespace and function renames MMU moved to namespace kernel Kernel::Memory::Heap moved to just Kernel MMU::map_{page,range} renamed to identity_map_{page,range} Add MMU::get_page_flags
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return 0;
uint64_t* pt = (uint64_t*)(pd[pde] & PAGE_MASK);
if (!(pt[pte] & Flags::Present))
return 0;
Kernel: MMU can now provide info about virtual address space
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return pt[pte];
}
MMU::flags_t MMU::get_page_flags(vaddr_t addr) const
{
return get_page_data(addr) & FLAGS_MASK;
}
paddr_t MMU::physical_address_of(vaddr_t addr) const
{
return get_page_data(addr) & PAGE_MASK;
}
vaddr_t MMU::get_free_page() const
{
// Try to find free page that can be mapped without
// allocations (page table with unused entries)
vaddr_t* pml4 = m_highest_paging_struct;
for (uint64_t pml4e = 0; pml4e < 512; pml4e++)
{
if (!(pml4[pml4e] & Flags::Present))
continue;
vaddr_t* pdpt = (vaddr_t*)(pml4[pml4e] & PAGE_MASK);
for (uint64_t pdpte = 0; pdpte < 512; pdpte++)
{
if (!(pdpt[pdpte] & Flags::Present))
continue;
vaddr_t* pd = (vaddr_t*)(pdpt[pdpte] & PAGE_MASK);
for (uint64_t pde = 0; pde < 512; pde++)
{
if (!(pd[pde] & Flags::Present))
continue;
vaddr_t* pt = (vaddr_t*)(pd[pde] & PAGE_MASK);
for (uint64_t pte = !(pml4e + pdpte + pde); pte < 512; pte++)
{
if (!(pt[pte] & Flags::Present))
{
vaddr_t vaddr = 0;
vaddr |= pml4e << 39;
vaddr |= pdpte << 30;
vaddr |= pde << 21;
vaddr |= pte << 12;
return vaddr;
}
}
}
}
}
// Find any free page page (except for page 0)
vaddr_t address = PAGE_SIZE;
while ((address << 48) == 0)
{
if (!(get_page_flags(address) & Flags::Present))
return address;
address += PAGE_SIZE;
}
ASSERT_NOT_REACHED();
}
bool MMU::is_page_free(vaddr_t page) const
{
ASSERT(page % PAGE_SIZE == 0);
return !(get_page_flags(page) & Flags::Present);
}
bool MMU::is_range_free(vaddr_t start, size_t size) const
{
vaddr_t first_page = start / PAGE_SIZE;
vaddr_t last_page = BAN::Math::div_round_up<vaddr_t>(start + size, PAGE_SIZE);
for (vaddr_t page = first_page; page <= last_page; page++)
if (!is_page_free(page * PAGE_SIZE))
return false;
return true;
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}
}