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|
global page_region
%define PAGEBUFSIZE 0x10 * 0x1000
section .bss
ALIGN(4096)
pagebuf_data: resb PAGEBUFSIZE
section .data
pagebuf_init:
.start: dq pagebuf_data
.size: dq PAGEBUFSIZE
.used: dq 0
pagebuf: dq pagebuf_init
next_page: dq 0
section .text
; allocate new page table buffer
alloc:
; rsi = buffer (result)
; rdi = next_page
; r8 = pagebuf
; rbx = upper
; rax = tmp; used_next
mov r8, [pagebuf] ; *pagebuf
mov rsi, [r8] ; start = pagebuf->start
mov rbx, [r8+8] ; size = pagebuf->size
add rbx, rsi ; upper_have = start + size
; round *up* to 0x1000 align
mov rax, 0xfff
add rsi, rax
not rax
and rsi, rax ; aligned_start = (start + 0xfff) & (~0xfff)
mov rax, [r8+16] ; used = pagebuf->used
add rax, 0x1000
add rsi, rax ; upper_need = aligned_start + used + 0x1000
cmp rsi, rbx ; if upper_need > upper_have
ja .newbuf ; current region is full, get new
cmp rsi, r10 ; if upper_need >= next_page
jae .oom ; out of memory (target buffer isn't paged yet)
mov [r8+16], rax ; pagebuf->used = used + 0x1000
; clear out buffer
mov rbx, rsi
sub rsi, 0x1000
.clear:
sub rbx, 8
mov qword[rbx], 0
cmp rbx, rsi
jne .clear
ret
; select next page buffer
.newbuf:
cmp r8, pagebuf_init
jne .nextbuf
mov r8, 0x500
jmp .trybuf
.nextbuf:
add r8, 24
.trybuf:
cmp qword[r8], 0
je .oom ; last region reached
mov rax, [r8+16]
cmp rax, -1
je .nextbuf ; region is reserved
cmp rax, 0
jne .oom ; region has not been paged yet
mov [pagebuf], r8
jmp alloc
.oom:
push rdi
mov rdi, .oom_msg
; call print_str
pop rdi
; call print_hex
; call newline
jmp $
.oom_msg: db "out of memory for page table", 10, "next_page = ", 0
; get/create page tables
get_tables:
; level 4
; rdi = address (arg, persist)
; rax = tmp
; rbx = mask
; rcx = bits (persist)
; rdx = level (persist)
; r8 = table address
; rsi = next offset (persist)
mov cl, 12+9*4
mov dl, 4
mov rsi, 0x1000
; level 4
.level:
dec dl
mov r8, rdi
mov rbx, -1 ; reset remainder mask
shl rbx, cl ; update remainder mask
not rbx ; negate remainder mask
and r8, rbx ; apply remainder mask
mov al, 9
mul dl
add al, 12
mov cl, al
shr r8, cl ; divide
shl r8, 3 ; multiply by 8
mov rbx, 0xfff ; 0x1000 alignment
not rbx ; offset mask
and rsi, rbx ; apply offset mask
add r8, rsi ; add offset
push r8 ; store
cmp dl, 0
je .done
mov rsi, [r8] ; next offset
cmp rsi, 0
jne .level
call alloc
or rsi, 3
mov r8, [rsp]
mov [r8], rsi
jmp .level
.done:
pop r11
pop r12
pop r13
pop r14
ret
space:
mov dil, ' '
; jmp print_chr
page_region:
push rbx
push r12
push r13
push r14
push r15
mov r9, rdi
mov rdi, [r9] ; ptr = mmap_entry->ptr
mov r10, [next_page]
push rdi
mov rax, 1 << 63
or rdi, rax
; call print_hex
; call space
mov rdi, [r9+8]
add rdi, [rsp]
or rdi, rax
; call print_hex
; call newline
pop rdi
; for usable region (type = 1), set mmap_entry->used = 0
; for reserved region (type = 2), set mmap_entry->used = -1
xor rax, rax
xor rbx, rbx
mov eax, dword[r9+16]
cmp rax, 1
je .set_used
dec rbx
.set_used:
mov [r9+16], rbx
mov r10, rdi
mov r15, rdi ; r15 = end of region
add r15, [r9+8]
mov rax, 0xfff
not rax
and rdi, rax ; round down to 0x1000 aligned
cmp rdi, r10
jb .get_tables
mov r10, rdi
.get_tables:
call get_tables ; page tables into r11-r14
; start filling L1 map
.l1:
mov rax, rdi
or rax, 3
mov [r11], rax
add rdi, 0x1000
cmp rdi, r10
jb .next
mov r10, rdi
.next:
cmp rdi, r15 ; if next >= end
jae .done
; prepare rcx mask for later
mov rcx, -1
shl rcx, 3
; bump L1
add r11, 8
mov rax, r11
and rax, 0xfff
jnz .l1
; bump L2
add r12, 8
mov rax, r12
and rax, 0xfff
jnz .l2
; bump L3
add r13, 8
mov rax, r13
and rax, 0xfff
jnz .l3
; bump L4
add r14, 8
mov rax, r14
and rax, 0xfff
jnz .l4
; machine has more than 256TB of RAM, tell user to fuck off
jmp .bruh
.l4:
mov r13, [r14]
and r13, rcx
jnz .l3
call alloc
mov r13, rsi
or rsi, 3
mov [r14], rsi
.l3:
mov r12, [r13]
and r12, rcx
jnz .l2
call alloc
mov r12, rsi
or rsi, 3
mov [r13], rsi
.l2:
mov r11, [r12]
and r11, rcx
jnz .l2
call alloc
mov r11, rsi
or rsi, 3
mov [r12], rsi
jmp .l1
.done:
mov [next_page], r10
pop r15
pop r14
pop r13
pop r12
pop rbx
ret
.bruh:
mov rdi, .bruh_msg
; call print_str
jmp $
.bruh_msg: db "bruh why do you have more than 256TB of RAM (you fucking glow)", 10, 0
; identity map available memory
old_page_map:
mov r9, 0x0500 ; mmap_entry
.entry:
cmp qword[r9], 0
je .done
call page_region
add r9, 24
jmp .entry
.done:
ret
|
