Setting Up Paging With PAE: Difference between revisions
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PAE-Paging should now be enabled. |
PAE-Paging should now be enabled. |
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===Mapping the PD to itself=== |
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In Legacy-Paging this is quite easy. Just map the PD to the last entry of itself. |
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In PAE-Paging we have 4 entries and the PDPT, so how does it work? |
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Depending on where you want to set it you just map all 4 directories into one of those! |
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Example (PD's at end of virtual memory) |
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<pre> |
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uint64_t * page_dir = (uint64_t*)page_dir_ptr_tab[3]; // get the page table (you should 'and' the flags away) |
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page_dir[511] = (uint64_t)page_dir; // map pd to itself |
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page_dir[510] = page_dir_ptr_tab[2]; // map pd3 to it |
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page_dir[509] = page_dir_ptr_tab[1]; // map pd2 to it |
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page_dir[508] = page_dir_ptr_tab[0]; // map pd1 to it |
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page_dir[507] = (uint64_t)&page_dir_ptr_tab; /* map the PDPT to the directory |
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</pre> |
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Now you can access all structures in virtual memory. Mapping the PDPT into the directory wastes quite much virtual memory as only 64bytes are used, but if you allocate most/all PDPT's into one page then you can access ALL of them, which can be quite useful. |
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[[Category:X86 CPU]] |
[[Category:X86 CPU]] |
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[[Category:Tutorials]] |
[[Category:Tutorials]] |
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Revision as of 19:00, 23 November 2008
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This is a guide to setting up paging with PAE enabled. You should read Setting Up Paging first.
Differences between PAE-Paging and Legacy-Paging
- PAE allows you to access more physical memory, which is usually 64GiB (in fact, this is implementation specific).
- A new data structure is added, the so called 'Page-Directory-Pointer-Table'
- A entry is now 8-byte-wide (Legacy: 4-byte), so the number of entries is halved to 512 (Legacy: 1024)
Setting Up The Data Structures
As mentioned above the 'Page-Directory-Pointer-Table' is added, which contains 4 Page-Directory-Entries
uint64_t page_dir_ptr_tab[4] __attribute__((aligned(0x20))); // must be aligned to (at least)0x20, ...
// ... turning out that you can put more of them into one page, saving memory
Keep in mind that the size of the CR3 register remains at 4byte, meaning that a PDPT must be located below 4GiB in physical memory.
Now we need our Page-Directory/-Table
// 512 entries uint64_t page_dir[512] __attribute__((aligned(0x1000))); // must be aligned to page boundary uint64_t page_tab[512] __attribute__((aligned(0x1000)));
Making it run
Ok, now we have our structures. Now we have to make it run.
page_dir_ptr_tab[0] = (uint64_t)&page_dir | 1; // set the page directory into the PDPT and mark it present page_dir[0] = (uint64_t)&p_tab | 3; //set the page table into the PD and mark it present/writable
Ok, let's map the first 2MiB.
unsigned int i, address = 0;
for(i = 0; i < 512; i++)
{
page_tab[i] = address | 3; // map address and mark it present/writable
address = address + 0x1000;
}
Ok, pages are mapped. Now we have to set the PAE-bit and load the PDPT into CR3
asm volatile("movl %cr4, %eax; bts $5, %eax; movl %eax, %cr4"); // set bit5 in CR4 to enable PAE
asm volatile ("movl %%eax, %%cr3" :: "a" (&page_dir_ptr_tab)); // load PDPT into CR3
The last thing we need to do is activating paging. Simply done:
asm volatile ("movl %cr0, %eax; orl $0x80000000, %eax; movl %eax, %cr0;");
PAE-Paging should now be enabled.
Mapping the PD to itself
In Legacy-Paging this is quite easy. Just map the PD to the last entry of itself. In PAE-Paging we have 4 entries and the PDPT, so how does it work? Depending on where you want to set it you just map all 4 directories into one of those! Example (PD's at end of virtual memory)
uint64_t * page_dir = (uint64_t*)page_dir_ptr_tab[3]; // get the page table (you should 'and' the flags away) page_dir[511] = (uint64_t)page_dir; // map pd to itself page_dir[510] = page_dir_ptr_tab[2]; // map pd3 to it page_dir[509] = page_dir_ptr_tab[1]; // map pd2 to it page_dir[508] = page_dir_ptr_tab[0]; // map pd1 to it page_dir[507] = (uint64_t)&page_dir_ptr_tab; /* map the PDPT to the directory
Now you can access all structures in virtual memory. Mapping the PDPT into the directory wastes quite much virtual memory as only 64bytes are used, but if you allocate most/all PDPT's into one page then you can access ALL of them, which can be quite useful.