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|
.extern _end_physical
.extern _init
.extern kernel_main
/**
* Uninitialized data for the bootstrapping process.
*/
.section .boot_bss, "aw", @nobits
.align 4096
/**
* Reserve space for the page maps we are going to used during startup.
*
* Note: We are going to use large pages to make the initial mapping code
* simpler.
*
* We need:
* - A single PML 4 (since we will only use 4-level paging)
* - 2 PML 3s (since we need to map low (1+MiB) memory)
* - 2 PML 2s (since we need to map low (1+MiB) memory)
*/
.global page_map_level_4
page_map_level_4: .skip 512 * 8
.global page_map_level_3_low
page_map_level_3_low: .skip 512 * 8
.global page_map_level_2_low
page_map_level_2_low: .skip 512 * 8
/**
* Reserve some space for the Multiboot 2 information pointer.
*/
.global multiboot_information_pointer
multiboot_information_pointer: .skip 4
/**
* Stack space for the bootstrapping process.
*
* Note: We are going to reserve 1 MiB for now. If/when the kernel requires
* more space to run, it will have to relocate the stack.
*/
.section .boot_stack, "aw", @nobits
.align 16
stack_bottom: .skip 1 << 20
stack_top:
/**
* Constants for the bootstrapping process.
*/
.section .boot_rodata, "a", @progbits
/**
* A valid Global Descriptor Table is still required in long mode. However, we
* only need a single entry for the "code segment", so we will setup a single
* segment table below.
*
* Bit 43: "E" in the access byte => mark the segment as executable.
* Bit 44: "S" in the access byte => mark the segment as code or data.
* Bit 47: "P" in the access byte => mark the segment as being present.
* Bit 53: "L" in the flags byte => mark the segment as being for long mode
*/
global_descriptor_table: .quad 0
global_descriptor_table_code = . - global_descriptor_table
.quad (1<<43) | (1<<44) | (1<<47) | (1<<53)
/**
* We also need a pointer that we can load into the GDTR.
*
* The pointer consists of a word describing the size of the table minus 1 and
* the pointer to the actual table.
*/
global_descriptor_table_pointer:
.word . - global_descriptor_table - 1
.quad global_descriptor_table
/**
* We are going to print some messages in case we panic during boot, so we are
* going to store them here as well
*/
message_prefix_panic:
.string "TeachOS Panic: "
message_not_loaded_by_multiboot2:
.string "The operating system was not loaded by a Multiboot 2 loader."
message_cpuid_instruction_no_supported:
.string "The 'cpuid' instruction is not supported on this platform."
mesage_long_mode_not_supported:
.string "Long mode is not supported by this platform."
/**
* Mutable data for the bootstrapping process.
*/
.section .boot_data, "aw", @progbits
/**
* We need a pointer to our current position in the VGA text buffer.
*/
.global vga_buffer_pointer
vga_buffer_pointer: .long 0xb8000
/**
* Code for the bootstrapping process.
*/
.section .boot_text, "ax", @progbits
.align 16
.code32
/**
* Print a given panic message and then halt the machine.
*
* Parameters:
* - [stack - 0] message: the message to print
*/
_panic:
push %ebp
mov %esp, %ebp
push message_prefix_panic
push $0x4f
call _print
add $8, %esp
push 8(%ebp)
push 0x4f
call _print
add $8, %esp
hlt
/**
* Print a message via the VGA buffer.
*
* Parameters:
* - [stack - 4] message: the message to print
* - [stack - 0] color: the color of the message
*/
_print:
push %ebp
mov %esp, %ebp
push %ebx
push %esi
mov 8(%ebp), %eax
mov 12(%ebp), %ebx
mov $0, %ecx
mov (vga_buffer_pointer), %esi
.Lprint_loop:
mov (%ebx, %ecx), %dl
test %dl, %dl
je .Lupdate_vga_buffer_address
mov %dl, (%esi, %ecx, 2)
mov %al, 1(%esi, %ecx, 2)
inc %ecx
jmp .Lprint_loop
.Lupdate_vga_buffer_address:
shl $1, %ecx
add %ecx, (vga_buffer_pointer)
.Lprint_end:
pop %esi
pop %ebx
mov %ebp, %esp
pop %ebp
ret
/**
* This is our entry point after being loaded by the bootloader.
*
* Having this in assembly makes it easier for us to keep things together.
*/
.global _start
_start:
mov $stack_top, %esp
mov %esp, %ebp
call assert_loaded_by_multiboot2_loader
call assert_cpuid_instruction_is_supported
call assert_cpu_supports_long_mode
call prepare_page_maps
call enable_paging
call enable_sse
lgdt (global_descriptor_table_pointer)
jmp $global_descriptor_table_code,$_transition_to_long_mode
hlt
/**
* Assert that the CPU supports going into long mode.
*/
assert_cpu_supports_long_mode:
mov $0x80000000, %eax
cpuid
cmp $0x80000001, %eax
jb .Llong_mode_assertion_failed
mov $0x80000001, %eax
cpuid
test $(1 << 29), %edx
jz .Llong_mode_assertion_failed
ret
.Llong_mode_assertion_failed:
push $mesage_long_mode_not_supported
call _panic
/**
* Assert that the CPU supports the CPUID instruction.
*
* The primary way to check for support of the instruction is to flip the ID
* bin in EFLAGS and then check if this changed was accepted. If so, the CPU
* supports the CPUID instruction, otherwise it most-likely doesn't.
*/
assert_cpuid_instruction_is_supported:
pushfl
pop %eax
mov %eax, %ecx
xor $(1 << 21), %eax /* Flip the ID bit */
push %eax /* Move the new bitset on the stack for loading */
popfl /* Load the flags with ID set back into EFLAGS */
pushfl /* Copy the flags back onto the stack */
pop %eax /* Load the flags for further checking */
push %ecx
popfl
cmp %ecx, %eax
je .Lcpuid_assertion_fail
ret
.Lcpuid_assertion_fail:
push $message_cpuid_instruction_no_supported
call _panic
/**
* Assert that we were loaded by a Multiboot 2 compliant bootloader.
*
* This assertion will panic the system if the magic signature was not found.
* If we were loaded my an appropriate bootloader, this function also saves
* the provided MBI pointer to `multiboot_information_pointer`.
*/
assert_loaded_by_multiboot2_loader:
cmp $0x36d76289, %eax /* Check if we received the
expected magic */
jne .Lmultiboot2_assertion_fail /* Panic otherwise */
mov %ebx, multiboot_information_pointer /* Store the MBI pointer */
ret
.Lmultiboot2_assertion_fail:
push $message_not_loaded_by_multiboot2
call _panic
/**
* Enable paging.
*
* Note: This routine expects for there to be a valid set of page maps already
* set up for use.
*/
enable_paging:
mov $page_map_level_4, %eax
mov %eax, %cr3
/* Map the P4 table recursively */
mov $page_map_level_4, %eax
or 0b11, %eax
// TODO: WHY THIS THROW ERROR?
//mov %eax, [$page_map_level_4 + 511 * 8]
/* Enable Physical Address Extension */
mov %cr4, %eax
or $(1 << 5), %eax
mov %eax, %cr4
/* Enable long mode support */
mov $0xC0000080, %ecx
rdmsr
or $(1 << 8), %eax
wrmsr
/* Enable paging */
mov %cr0, %eax
or $(1 << 31), %eax
mov %eax, %cr0
ret
/**
* Enable use of SSE instructions.
*/
enable_sse:
mov %cr0, %eax
and $0xfffffffb, %eax
or $0x00000002, %eax
mov %eax, %cr0
mov %cr4, %eax
or $(3 << 9), %eax
mov %eax, %cr4
ret
/**
* Prepare the page maps.
*
* We map all physical memory we were loaded in plus one additional page. The
* mapping is done in terms of huge pages (2 MiB per page) to save on required
* page map entries.
*/
prepare_page_maps:
/* Add an entry to the PML4, pointing to the low PML3 */
mov $page_map_level_3_low, %eax
or $0x3, %eax
mov %eax, (page_map_level_4 + ((0x0000000000100000 >> 39) & 0x1ff) * 8)
/* Add an entry to the low PML3, pointing to the low PML2 */
mov $page_map_level_2_low, %eax
or $0x3, %eax
mov %eax, (page_map_level_3_low + ((0x0000000000100000 >> 30) & 0x1ff) * 8)
xor %ecx, %ecx
mov $_end_linear, %esi
shr $21, %esi
add $2, %esi
.Lmap_pages:
mov $(1 << 21), %eax
mul %ecx
or $((1 << 0) | (1 << 1) | (1 << 7)), %eax
mov %eax, page_map_level_2_low(,%ecx,8)
inc %ecx
cmp %esi, %ecx
jne .Lmap_pages
ret
.section .boot_text, "ax", @progbits
.code64
_transition_to_long_mode:
xor %rax, %rax
mov %rax, %ss
mov %rax, %ds
mov %rax, %es
mov %rax, %fs
mov %rax, %gs
movl $0xb8000, (vga_buffer_pointer)
call _init
call kernel_main
hlt
|
