windows-nt/Source/XPSP1/NT/enduser/stuff/itss/lzx/decoder/xlatasm.asm

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2020-09-26 03:20:57 -05:00
;
; asm_decoder_translate_e8()
;
; Assembly implementation of this from decxlat.c
;
; 26-Jul-96 jforbes Initial version
;
TITLE XLATASM.ASM
.386P
.model FLAT
PUBLIC _asm_decoder_translate_e8
OFFSET_INSTR_POS equ 28
OFFSET_FILE_SIZE equ 32
OFFSET_MEM equ 36
OFFSET_BYTES equ 40
;
; ulong asm_decoder_translate_e8(instr_pos, file_size, mem *, bytes)
;
; returns new instr_pos in EAX
;
_TEXT SEGMENT
_asm_decoder_translate_e8 PROC NEAR
push ebx
push ecx
push edx
push esi
push edi
push ebp
; edx = bytes
mov edx, DWORD PTR [esp + OFFSET_BYTES]
; if (bytes >= 6)
cmp edx, 6
jge greater_than_6_bytes
;
; less than 6 bytes to translate, so don't translate
;
; instr_pos += bytes
add edx, [esp + OFFSET_INSTR_POS]
; return new instr_pos in eax
mov eax, edx
pop ebp
pop edi
pop esi
pop edx
pop ecx
pop ebx
ret 0
greater_than_6_bytes:
; ebp = current_file_size
mov ebp, DWORD PTR [esp + OFFSET_FILE_SIZE]
; ebx = 0xE8, our magic number
mov ebx, 0E8h ; 232
; esi = instr_pos
mov esi, DWORD PTR [esp + OFFSET_INSTR_POS]
; ecx = mem
mov ecx, DWORD PTR [esp + OFFSET_MEM]
; edi = instr_pos + bytes - 6
mov edi, esi
add edi, edx
sub edi, 6
; backup the last 6 bytes in the buffer
sub esp, 6
; eax = &mem[bytes-6]
mov eax, ecx
add eax, edx
sub eax, 6
mov edx, [eax]
mov [esp], edx
mov dx, WORD PTR [eax+4]
mov WORD PTR [esp+4], dx
; now store 0xE8's in there
mov DWORD PTR [eax], 0E8E8E8E8h
mov WORD PTR [eax+4], 0E8E8h
; save &mem[bytes-6]
push eax
;
; main loop
;
; eax = temporary
; ebx = 0xE8
; ecx = source ptr
; edx = temporary
; esi = instr pos
; edi = end_instr_pos
; ebp = current_file_size
;
loop_top:
;
; while (*mem++ != 0xE8)
; ;
; eax = mem before
mov eax, ecx ; u1
nop ; v1
main_subloop:
cmp bl, [ecx] ; u2
je SHORT equals_e8 ; v1
cmp bl, [ecx+1] ; u2
je SHORT pre1 ; v1
cmp bl, [ecx+2] ; u2
je SHORT pre2 ; v1
cmp bl, [ecx+3] ; u2
je SHORT pre3 ; v1
add ecx, 4 ; u1
jmp SHORT main_subloop ; v1
pre3:
add ecx, 3 ; u1
jmp SHORT equals_e8 ; v1
pre2:
add ecx, 2 ; u1
jmp SHORT equals_e8 ; v1
pre1:
inc ecx
equals_e8:
; instr_pos += bytes visited in above loop
; esi := esi + (ecx - eax)
sub esi, eax ; u1
add esi, ecx ; v1
;
; Here is the only place we check for the end.
;
; We can do this because we force an 0xE8 at the end
; of the buffer.
;
; We cannot overlap the MOV below in between the
; cmp/jge, because ecx+1 may point to invalid memory.
;
cmp esi, edi ; u1
jge SHORT bottom ; v1
; eax = absolute = *(long *) mem
mov eax, [ecx+1] ; u1
add ecx, 5 ; v1 memptr += 5
;
; if (absolute < current_file_size && absolute >= 0)
;
; use unsigned comparison here so that if absolute < 0
; then it seems like it's some huge number
;
; this way we only do one comparison, abs >= file_size
;
cmp eax, ebp ; u1
jae SHORT second_check ; v1
;
; instead of doing "offset = absolute - instr_pos" and
; then storing it, we just say *mem -= instr_pos
;
; instead of:
;
; sub eax, esi
; mov [ecx-4], eax
;
; we do:
sub [ecx-4], esi ; u3
add esi, 5 ; v1 instr_pos += 5
mov eax, ecx ; u1 (copied from loop_top)
jmp SHORT main_subloop ; v1
;
; we want (absolute < 0) && (absolute >= -instr_pos)
;
; which can be rewritten as:
;
; (-absolute > 0) && (-absolute - instr_pos <= 0)
;
; then:
;
; (-absolute > 0) && (-absolute <= instr_pos)
;
; we can do both of these checks by checking with
; unsigned arithmetic, since if absolute < 0 then it
; will seem like some huge number:
;
; if ((ulong) (-(long) absolute) <= instr_pos)
;
; note: absolute==0 is taken care of in the first case
;
second_check:
; edx = instr_pos + absolute
neg eax ; u
cmp eax, esi ; u1
ja SHORT no_conversion ; v1
;
; instead of storing "offset = absolute + current_file_size"
; we can do *mem += file_size.
;
; instead of doing:
;
; neg eax
; add eax, ebp
; mov DWORD PTR [ecx-4], eax
;
; we do:
add [ecx-4], ebp ; u3
no_conversion:
; instr_pos += 5
add esi, 5 ; v1 u1
jmp SHORT loop_top ; v1
bottom:
; instr_pos = end_instr_pos + 6
add edi, 6
; restore the 6 bytes
; get &mem[bytes-6]
pop eax
mov edx, DWORD PTR [esp]
mov DWORD PTR [eax], edx
mov dx, WORD PTR [esp+4]
mov WORD PTR [eax+4], dx
add esp, 6
; return new instr_pos in eax
mov eax, edi
pop ebp
pop edi
pop esi
pop edx
pop ecx
pop ebx
ret 0
_asm_decoder_translate_e8 ENDP
_TEXT ENDS
END