977 lines
32 KiB
Plaintext
977 lines
32 KiB
Plaintext
|
;; Copyright (C) 2017 Jeremiah Orians
|
||
|
;; This file is part of stage0.
|
||
|
;;
|
||
|
;; stage0 is free software: you can redistribute it and/or modify
|
||
|
;; it under the terms of the GNU General Public License as published by
|
||
|
;; the Free Software Foundation, either version 3 of the License, or
|
||
|
;; (at your option) any later version.
|
||
|
;;
|
||
|
;; stage0 is distributed in the hope that it will be useful,
|
||
|
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
|
||
|
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
|
||
|
;; GNU General Public License for more details.
|
||
|
;;
|
||
|
;; You should have received a copy of the GNU General Public License
|
||
|
;; along with stage0. If not, see <http://www.gnu.org/licenses/>.
|
||
|
|
||
|
;; Register usage:
|
||
|
;; EAX, ECX, EBX => Temps
|
||
|
;; EDI => MALLOC
|
||
|
;; EBP => HEAD
|
||
|
;; [Output] => Output_file
|
||
|
;; [Input] => Input_file
|
||
|
|
||
|
;; Struct format: (size 32)
|
||
|
;; NEXT => 0
|
||
|
;; TYPE => 8
|
||
|
;; TEXT => 16
|
||
|
;; EXPRESSION => 24
|
||
|
|
||
|
;; Types
|
||
|
;; None => 0
|
||
|
;; MACRO => 1
|
||
|
;; STRING => 2
|
||
|
|
||
|
; Where the ELF Header is going to hit
|
||
|
; Simply jump to _start
|
||
|
; Our main function
|
||
|
|
||
|
DEFINE ADDI8_AL 04
|
||
|
DEFINE ADDI8_EAX 83C0
|
||
|
DEFINE ADDI8_EBX 83C3
|
||
|
DEFINE ADDI8_ECX 83C1
|
||
|
DEFINE ADDI8_EDX 83C2
|
||
|
DEFINE ADD_EAX_to_EBX 01C3
|
||
|
DEFINE ADD_ECX_to_EAX 01C8
|
||
|
DEFINE ANDI8_EAX 83E0
|
||
|
DEFINE CALL32 E8
|
||
|
DEFINE CMPI8_AL 3C
|
||
|
DEFINE CMPI8_EAX 83F8
|
||
|
DEFINE CMPI8_EBX 83FB
|
||
|
DEFINE CMPI8_ECX 83F9
|
||
|
DEFINE CMPI8_EDI 83FF
|
||
|
DEFINE CMPI8_EDX 83FA
|
||
|
DEFINE CMP_EAX_EBX 39D8
|
||
|
DEFINE CMP_EAX_ECX 39C8
|
||
|
DEFINE CMP_EBX_ECX 39D9
|
||
|
DEFINE COPY_EAX_to_EBP 89C5
|
||
|
DEFINE COPY_EAX_to_EBX 89C3
|
||
|
DEFINE COPY_EAX_to_ECX 89C1
|
||
|
DEFINE COPY_EAX_to_EDI 89C7
|
||
|
DEFINE COPY_EAX_to_EDX 89C2
|
||
|
DEFINE COPY_EBP_to_EAX 89E8
|
||
|
DEFINE COPY_EBP_to_EBX 89EB
|
||
|
DEFINE COPY_EBX_to_EAX 89D8
|
||
|
DEFINE COPY_EBX_to_ECX 89D9
|
||
|
DEFINE COPY_EBX_to_EDI 89DF
|
||
|
DEFINE COPY_EBX_to_EDX 89DA
|
||
|
DEFINE COPY_ECX_to_EAX 89C8
|
||
|
DEFINE COPY_ECX_to_EBX 89CB
|
||
|
DEFINE COPY_EDI_to_EAX 89F8
|
||
|
DEFINE COPY_EDI_to_EBX 89FB
|
||
|
DEFINE COPY_EDX_to_EAX 89D0
|
||
|
DEFINE COPY_EDX_to_EBP 89D5
|
||
|
DEFINE IMULI8_EAX 6BC0
|
||
|
DEFINE INT_80 CD80
|
||
|
DEFINE JBE32 0F86
|
||
|
DEFINE JE32 0F84
|
||
|
DEFINE JG32 0F8F
|
||
|
DEFINE JL32 0F8C
|
||
|
DEFINE JMP32 E9
|
||
|
DEFINE JNE32 0F85
|
||
|
DEFINE LEA32_ECX_from_esp 8D0C24
|
||
|
DEFINE LOAD32_Absolute32_ebx 8B1D
|
||
|
DEFINE LOAD32_EAX_from_EAX 8B00
|
||
|
DEFINE LOAD32_EAX_from_EAX_Immediate8 8B40
|
||
|
DEFINE LOAD32_EAX_from_EBX_Immediate8 8B43
|
||
|
DEFINE LOAD32_EAX_from_ECX 8B01
|
||
|
DEFINE LOAD32_EAX_from_ECX_Immediate8 8B41
|
||
|
DEFINE LOAD32_EAX_from_EDX_Immediate8 8B42
|
||
|
DEFINE LOAD32_EBX_from_EAX_Immediate8 8B58
|
||
|
DEFINE LOAD32_EBX_from_EBX 8B1B
|
||
|
DEFINE LOAD32_EBX_from_ECX_Immediate8 8B59
|
||
|
DEFINE LOAD32_ECX_from_EAX_Immediate8 8B48
|
||
|
DEFINE LOAD32_ECX_from_EBX 8B0B
|
||
|
DEFINE LOAD32_ECX_from_ECX 8B09
|
||
|
DEFINE LOAD32_EDX_from_EDX 8B12
|
||
|
DEFINE LOAD8_al_from_EBX 8A03
|
||
|
DEFINE LOAD8_al_from_EBX_indexed_ECX 8A040B
|
||
|
DEFINE LOAD8_al_from_ECX 8A01
|
||
|
DEFINE LOAD8_al_from_EDX 8A02
|
||
|
DEFINE LOAD8_bl_from_EAX 8A18
|
||
|
DEFINE LOAD8_bl_from_EDX 8A1A
|
||
|
DEFINE LOAD8_cl_from_EAX 8A08
|
||
|
DEFINE LOAD8_cl_from_EBX 8A0B
|
||
|
DEFINE LOAD8_cl_from_EBX_Immediate8 8A4B
|
||
|
DEFINE LOADI32_EAX B8
|
||
|
DEFINE LOADI32_EBX BB
|
||
|
DEFINE LOADI32_ECX B9
|
||
|
DEFINE LOADI32_EDI BF
|
||
|
DEFINE LOADI32_EDX BA
|
||
|
DEFINE MOVZX_al 0FB6C0
|
||
|
DEFINE MOVZX_bl 0FB6DB
|
||
|
DEFINE MOVZX_cl 0FB6C9
|
||
|
DEFINE NULL 00000000
|
||
|
DEFINE POP_EAX 58
|
||
|
DEFINE POP_EBX 5B
|
||
|
DEFINE POP_ECX 59
|
||
|
DEFINE POP_EDI 5F
|
||
|
DEFINE POP_EDX 5A
|
||
|
DEFINE POP_FLAGS 9D
|
||
|
DEFINE PUSH_EAX 50
|
||
|
DEFINE PUSH_EBX 53
|
||
|
DEFINE PUSH_ECX 51
|
||
|
DEFINE PUSH_EDI 57
|
||
|
DEFINE PUSH_EDX 52
|
||
|
DEFINE PUSH_FLAGS 9C
|
||
|
DEFINE RET C3
|
||
|
DEFINE SHLI8_EAX C1E0
|
||
|
DEFINE SHRI8_EAX C1E8
|
||
|
DEFINE STORE32_Absolute32_eax A3
|
||
|
DEFINE STORE32_EAX_into_Address_EBX 8903
|
||
|
DEFINE STORE32_EAX_into_Address_ECX 8901
|
||
|
DEFINE STORE32_EAX_into_Address_ECX_Immediate8 8941
|
||
|
DEFINE STORE32_EAX_into_Address_EDX_Immediate8 8942
|
||
|
DEFINE STORE32_EBP_into_Address_EDX 892A
|
||
|
DEFINE STORE32_EBX_into_Address_EAX_Immediate8 8958
|
||
|
DEFINE STORE32_EBX_into_Address_ECX_Immediate8 8959
|
||
|
DEFINE STORE32_ECX_into_Address_EDX_Immediate8 894A
|
||
|
DEFINE STORE8_al_into_Address_EBX 8803
|
||
|
DEFINE STORE8_cl_into_Address_EDX 880A
|
||
|
DEFINE SUBI8_ECX 83E9
|
||
|
DEFINE XCHG_EAX_EBX 93
|
||
|
|
||
|
:_start
|
||
|
POP_EAX ;·Get·the·number·of·arguments
|
||
|
POP_EBX ;·Get·the·program·name
|
||
|
POP_EBX ;·Get·the·actual·input name
|
||
|
LOADI32_ECX %0 ;·prepare·read_only
|
||
|
LOADI32_EAX %5 ;·the·syscall·number·for·open()
|
||
|
INT_80 ; Now open that damn file
|
||
|
STORE32_Absolute32_eax &Input ; Preserve the file pointer we were given
|
||
|
|
||
|
POP_EBX ;·Get·the·actual·output name
|
||
|
LOADI32_ECX %577 ; Prepare file as O_WRONLY|O_CREAT|O_TRUNC
|
||
|
LOADI32_EDX %384 ; Prepare file as RWX for owner only (600 in octal)
|
||
|
LOADI32_EAX %5 ; the·syscall·number·for·open()
|
||
|
INT_80 ; Now open that damn file
|
||
|
CMPI8_EAX !0 ; Check for missing output
|
||
|
JG32 %_start_out ; Have real input
|
||
|
LOADI32_EAX %1 ; Use stdout
|
||
|
|
||
|
:_start_out
|
||
|
STORE32_Absolute32_eax &Output ; Preserve the file pointer we were given
|
||
|
|
||
|
LOADI32_EAX %45 ; the Syscall # for SYS_BRK
|
||
|
LOADI32_EBX %0 ; Get current brk
|
||
|
INT_80 ; Let the kernel do the work
|
||
|
COPY_EAX_to_EDI ; Set our malloc pointer
|
||
|
|
||
|
CALL32 %Tokenize_Line ; Get all lines
|
||
|
COPY_EBP_to_EAX ; prepare for Reverse_List
|
||
|
CALL32 %Reverse_List ; Correct order
|
||
|
COPY_EAX_to_EBP ; Update HEAD
|
||
|
CALL32 %Identify_Macros ; Find the DEFINEs
|
||
|
CALL32 %Line_Macro ; Apply the DEFINEs
|
||
|
CALL32 %Process_String ; Handle strings
|
||
|
CALL32 %Eval_Immediates ; Handle Numbers
|
||
|
CALL32 %Preserve_Other ; Collect the remaining
|
||
|
CALL32 %Print_Hex ; Output our results
|
||
|
|
||
|
:Done
|
||
|
; program completed Successfully
|
||
|
LOADI32_EBX %0 ; All is well
|
||
|
LOADI32_EAX %1 ; put the exit syscall number in eax
|
||
|
INT_80 ; Call it a good day
|
||
|
|
||
|
|
||
|
;; Tokenize_Line Function
|
||
|
;; Using input file [Input] and Head EBP
|
||
|
;; Creates a linked list of structs
|
||
|
;; Uses EBX for in_set strings, ECX for Int C and EDX for Struct Token* p
|
||
|
:Tokenize_Line
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
:restart
|
||
|
CALL32 %fgetc ; Read a char
|
||
|
CMPI8_EAX !-4 ; Check for EOF
|
||
|
JE32 %done ; File is collected
|
||
|
|
||
|
MOVZX_al ; We have to zero extend it to use it
|
||
|
COPY_EAX_to_ECX ; Protect C
|
||
|
|
||
|
LOADI32_EBX &comments ; Get pointer to "#;"
|
||
|
CALL32 %In_Set ; Check for comments
|
||
|
CMPI8_EAX !1 ; If comments
|
||
|
JE32 %Purge_LineComment ; try again
|
||
|
|
||
|
COPY_ECX_to_EAX ; put C in place for check
|
||
|
LOADI32_EBX &terminators ; Get pointer to "\n\t "
|
||
|
CALL32 %In_Set ; Check for terminators
|
||
|
CMPI8_EAX !1 ; If terminator
|
||
|
JE32 %restart ; try again
|
||
|
|
||
|
LOADI32_EAX %32 ; Malloc the struct P
|
||
|
CALL32 %malloc ; Get pointer to P
|
||
|
COPY_EAX_to_EDX ; Protect P
|
||
|
STORE32_EBP_into_Address_EDX ; P->NEXT = HEAD
|
||
|
COPY_EDX_to_EBP ; HEAD = P
|
||
|
|
||
|
COPY_ECX_to_EAX ; put C in place for check
|
||
|
LOADI32_EBX &string_char ; Get pointer to "\"'"
|
||
|
CALL32 %In_Set ; Check for string chars
|
||
|
CMPI8_EAX !1 ; If string char
|
||
|
JE32 %Store_String ; Get string
|
||
|
|
||
|
CALL32 %Store_Atom ; Get whole token
|
||
|
JMP32 %restart
|
||
|
|
||
|
:done
|
||
|
POP_EDX ; Restore EDX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; fgetc function
|
||
|
;; Recieves FILE* in [Input]
|
||
|
;; Returns -4 (EOF) or char in EAX
|
||
|
:fgetc
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
LOADI32_EAX %-4 ; Put EOF in eax
|
||
|
PUSH_EAX ; Assume bad (If nothing read, value will remain EOF)
|
||
|
LEA32_ECX_from_esp ; Get stack address
|
||
|
LOAD32_Absolute32_ebx &Input ; Where are we reading from
|
||
|
LOADI32_EAX %3 ; the syscall number for read
|
||
|
LOADI32_EDX %1 ; set the size of chars we want
|
||
|
INT_80 ; call the Kernel
|
||
|
POP_EAX ; Get either char or EOF
|
||
|
POP_EBX ; Restore EBX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EDX ; Restore EDX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; Malloc isn't actually required if the program being built fits in the initial memory
|
||
|
;; However, it doesn't take much to add it.
|
||
|
;; Requires EDI to be initialized and EAX to have the number of desired bytes
|
||
|
:malloc
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
|
||
|
COPY_EDI_to_EBX ; Using the current pointer
|
||
|
ADD_EAX_to_EBX ; Request the number of desired bytes
|
||
|
LOADI32_EAX %45 ; the Syscall # for SYS_BRK
|
||
|
INT_80 ; call the Kernel
|
||
|
COPY_EDI_to_EAX ; Return pointer
|
||
|
COPY_EBX_to_EDI ; Update pointer
|
||
|
|
||
|
POP_EBX ; Restore EBX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EDX ; Restore EDX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; Purge_LineComment function
|
||
|
;; Reads chars until LF and jumps to restart
|
||
|
:Purge_LineComment
|
||
|
CALL32 %fgetc ; Get a char
|
||
|
MOVZX_al ; Zero extend
|
||
|
CMPI8_EAX !10 ; While not LF
|
||
|
JNE32 %Purge_LineComment ; Keep reading
|
||
|
JMP32 %restart
|
||
|
|
||
|
|
||
|
;; Store_String Function
|
||
|
;; Recieves C in ECX, HEAD in EDX and Input file in [Output]
|
||
|
;; Uses EBX for terminator, ECX for C and EDX for string
|
||
|
:Store_String
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
|
||
|
LOADI32_EAX %2 ; Using TYPE STRING
|
||
|
STORE32_EAX_into_Address_EDX_Immediate8 !8 ; HEAD->TYPE = STRING
|
||
|
LOADI32_EAX %256 ; Malloc the string
|
||
|
CALL32 %malloc ; Get pointer to P
|
||
|
STORE32_EAX_into_Address_EDX_Immediate8 !16 ; HEAD->TEXT = STRING
|
||
|
COPY_ECX_to_EBX ; Protect terminator
|
||
|
COPY_EAX_to_EDX ; Protect string pointer
|
||
|
:Store_String_Loop
|
||
|
STORE8_cl_into_Address_EDX ; write byte
|
||
|
CALL32 %fgetc ; read next char
|
||
|
MOVZX_al ; Zero extend it
|
||
|
COPY_EAX_to_ECX ; Update C
|
||
|
ADDI8_EDX !1 ; STRING = STRING + 1
|
||
|
CMP_EBX_ECX ; See if we hit terminator
|
||
|
JNE32 %Store_String_Loop ; Otherwise keep looping
|
||
|
|
||
|
POP_EDX ; Restore EDX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
COPY_EDX_to_EAX ; return HEAD
|
||
|
JMP32 %restart
|
||
|
|
||
|
|
||
|
;; Store_Atom Function
|
||
|
;; Recieves C in ECX, HEAD in EDX and Input file in [Input]
|
||
|
;; Uses EBX for in_set strings, ECX for C and EDX for string
|
||
|
:Store_Atom
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
|
||
|
LOADI32_EAX %256 ; Malloc the string
|
||
|
CALL32 %malloc ; Get pointer to P
|
||
|
STORE32_EAX_into_Address_EDX_Immediate8 !16 ; HEAD->TEXT = STRING
|
||
|
LOADI32_EBX &terminators ; Get pointer to "\n\t "
|
||
|
COPY_EAX_to_EDX ; Protect string pointer
|
||
|
:Store_Atom_loop
|
||
|
STORE8_cl_into_Address_EDX ; write byte
|
||
|
CALL32 %fgetc ; read next char
|
||
|
MOVZX_al ; Zero extend it
|
||
|
COPY_EAX_to_ECX ; Update C
|
||
|
ADDI8_EDX !1 ; STRING = STRING + 1
|
||
|
CALL32 %In_Set ; Check for terminators
|
||
|
CMPI8_EAX !0 ; Check for "\n\t "
|
||
|
JE32 %Store_Atom_loop ; Loop otherwise
|
||
|
|
||
|
POP_EDX ; Restore EDX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
COPY_EDX_to_EAX ; return HEAD
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; In_Set function
|
||
|
;; Recieves Char C in EAX and CHAR* in EBX
|
||
|
;; Returns 1 if true, zero if false in EAX
|
||
|
:In_Set
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
:In_Set_loop
|
||
|
LOAD8_cl_from_EBX ; Read char
|
||
|
MOVZX_cl ; Zero extend it
|
||
|
|
||
|
CMP_EAX_ECX ; See if they match
|
||
|
JE32 %In_Set_True ; return true
|
||
|
|
||
|
CMPI8_ECX !0 ; Check for NULL
|
||
|
JE32 %In_Set_False ; return false
|
||
|
|
||
|
ADDI8_EBX !1 ; s = s + 1
|
||
|
JMP32 %In_Set_loop ; Keep looping
|
||
|
|
||
|
:In_Set_True
|
||
|
LOADI32_EAX %1 ; Set True
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
RET
|
||
|
|
||
|
:In_Set_False
|
||
|
LOADI32_EAX %0 ; Set FALSE
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
RET
|
||
|
|
||
|
;; Char sets
|
||
|
:terminators
|
||
|
"
|
||
|
"
|
||
|
|
||
|
:comments
|
||
|
";#"
|
||
|
|
||
|
:string_char
|
||
|
'22 27 00'
|
||
|
|
||
|
|
||
|
;; Reverse_List function
|
||
|
;; Recieves List in EAX
|
||
|
;; Returns the list reversed in EAX
|
||
|
:Reverse_List
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
COPY_EAX_to_EBX ; Set HEAD
|
||
|
LOADI32_EAX %0 ; ROOT = NULL
|
||
|
:Reverse_List_Loop
|
||
|
CMPI8_EBX !0 ; WHILE HEAD != NULL
|
||
|
JE32 %Reverse_List_Done ; Stop otherwise
|
||
|
|
||
|
LOAD32_ECX_from_EBX ; NEXT = HEAD->NEXT
|
||
|
STORE32_EAX_into_Address_EBX ; HEAD->NEXT = ROOT
|
||
|
COPY_EBX_to_EAX ; ROOT = HEAD
|
||
|
COPY_ECX_to_EBX ; HEAD = NEXT
|
||
|
JMP32 %Reverse_List_Loop ; Keep Going
|
||
|
|
||
|
:Reverse_List_Done
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; Identify_Macros function
|
||
|
;; Recieves List in EAX
|
||
|
;; Updates the list in place; does not modify registers
|
||
|
;; Uses EBX for DEFINE, ECX for I
|
||
|
:Identify_Macros
|
||
|
PUSH_EAX ; Protect EAX
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
LOADI32_EBX &DEFINE_str ; Setup define string
|
||
|
COPY_EAX_to_ECX ; I = HEAD
|
||
|
:Identify_Macros_Loop
|
||
|
LOAD32_EAX_from_ECX_Immediate8 !16 ; I->TEXT
|
||
|
CALL32 %match ; IF "DEFINE" == I->TEXT
|
||
|
CMPI8_EAX !0 ; Check if match
|
||
|
JNE32 %Identify_Macros_Next ; Skip the work
|
||
|
|
||
|
;; Deal with MACRO
|
||
|
LOADI32_EAX %1 ; Using MACRO
|
||
|
STORE32_EAX_into_Address_ECX_Immediate8 !8 ; I->TYPE = MACRO
|
||
|
|
||
|
LOAD32_EAX_from_ECX ; I->NEXT
|
||
|
LOAD32_EAX_from_EAX_Immediate8 !16 ; I->NEXT->TEXT
|
||
|
STORE32_EAX_into_Address_ECX_Immediate8 !16 ; I->TEXT = I->NEXT->TEXT
|
||
|
|
||
|
LOAD32_EAX_from_ECX ; I->NEXT
|
||
|
LOAD32_EAX_from_EAX ; I->NEXT->NEXT
|
||
|
LOAD32_EAX_from_EAX_Immediate8 !16 ; I->NEXT->NEXT->TEXT
|
||
|
STORE32_EAX_into_Address_ECX_Immediate8 !24 ; I->EXPRESSION = I->NEXT->NEXT->TEXT
|
||
|
|
||
|
LOAD32_EAX_from_ECX ; I->NEXT
|
||
|
LOAD32_EAX_from_EAX ; I->NEXT->NEXT
|
||
|
LOAD32_EAX_from_EAX ; I->NEXT->NEXT->NEXT
|
||
|
STORE32_EAX_into_Address_ECX ; I->NEXT = I->NEXT->NEXT->NEXT
|
||
|
|
||
|
:Identify_Macros_Next
|
||
|
LOAD32_ECX_from_ECX ; I = I->NEXT
|
||
|
CMPI8_ECX !0 ; Check for NULL
|
||
|
JNE32 %Identify_Macros_Loop ; Keep looping otherwise
|
||
|
|
||
|
POP_EDX ; Restore EDX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
POP_EAX ; Restore EAX
|
||
|
RET
|
||
|
|
||
|
:DEFINE_str
|
||
|
"DEFINE"
|
||
|
|
||
|
|
||
|
;; match function
|
||
|
;; Recieves CHAR* in EAX and CHAR* in EBX
|
||
|
;; Returns 0 (TRUE) or 1 (FALSE) in EAX
|
||
|
:match
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
COPY_EAX_to_ECX ; S1 in place
|
||
|
COPY_EBX_to_EDX ; S2 in place
|
||
|
:match_Loop
|
||
|
LOAD8_al_from_ECX ; S1[0]
|
||
|
MOVZX_al ; Make it useful
|
||
|
LOAD8_bl_from_EDX ; S2[0]
|
||
|
MOVZX_bl ; Make it useful
|
||
|
CMP_EAX_EBX ; See if they match
|
||
|
JNE32 %match_False ; If not
|
||
|
|
||
|
ADDI8_ECX !1 ; S1 = S1 + 1
|
||
|
ADDI8_EDX !1 ; S2 = S2 + 1
|
||
|
CMPI8_EAX !0 ; If reached end of string
|
||
|
JE32 %match_Done ; Perfect match
|
||
|
JMP32 %match_Loop ; Otherwise keep looping
|
||
|
|
||
|
:match_False
|
||
|
LOADI32_EAX %1 ; Return false
|
||
|
:match_Done
|
||
|
POP_EDX ; Restore EDX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; Line_Macro function
|
||
|
;; Recieves List in EAX
|
||
|
;; Updates the list in place; does not modify registers
|
||
|
;; Uses EAX for I, EBX for I->TEXT, ECX for I->EXPRESSION
|
||
|
:Line_Macro
|
||
|
PUSH_EAX ; Protect EAX
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
:Line_Macro_Loop
|
||
|
LOAD32_EBX_from_EAX_Immediate8 !8 ; I->TYPE
|
||
|
CMPI8_EBX !1 ; IF MACRO == I->TYPE
|
||
|
JNE32 %Line_Macro_Next ; Otherwise move on
|
||
|
|
||
|
;; Is a macro apply
|
||
|
LOAD32_EBX_from_EAX_Immediate8 !16 ; I->TEXT
|
||
|
LOAD32_ECX_from_EAX_Immediate8 !24 ; I->EXPRESSION
|
||
|
LOAD32_EAX_from_EAX ; I->NEXT
|
||
|
CALL32 %Set_Expression ; Apply it
|
||
|
JMP32 %Line_Macro_Loop ; Move on to next
|
||
|
|
||
|
:Line_Macro_Next
|
||
|
LOAD32_EAX_from_EAX ; I->NEXT
|
||
|
CMPI8_EAX !0 ; Check for NULL
|
||
|
JNE32 %Line_Macro_Loop ; Keep going
|
||
|
|
||
|
POP_EDX ; Restore EDX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
POP_EAX ; Restore EAX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; Set_Expression function
|
||
|
;; Recieves List in EAX, CHAR* in EBX and CHAR* in ECX
|
||
|
;; Updates the list in place; does not modify registers
|
||
|
;; Uses EBX for C, ECX for EXP and EDX for I
|
||
|
:Set_Expression
|
||
|
PUSH_EAX ; Protect EAX
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
COPY_EAX_to_EDX ; Set I
|
||
|
:Set_Expression_Loop
|
||
|
LOAD32_EAX_from_EDX_Immediate8 !8 ; I->TYPE
|
||
|
CMPI8_EAX !1 ; IF MACRO == I->TYPE
|
||
|
JE32 %Set_Expression_Next ; Ignore and move on
|
||
|
|
||
|
LOAD32_EAX_from_EDX_Immediate8 !16 ; I->TEXT
|
||
|
CALL32 %match ; Check for match
|
||
|
CMPI8_EAX !0 ; If match
|
||
|
JNE32 %Set_Expression_Next ; Otherwise next
|
||
|
|
||
|
;; We have a non-macro match
|
||
|
STORE32_ECX_into_Address_EDX_Immediate8 !24 ; I->EXPRESSION = EXP
|
||
|
|
||
|
:Set_Expression_Next
|
||
|
LOAD32_EDX_from_EDX ; I = I->NEXT
|
||
|
CMPI8_EDX !0 ; IF NULL == I
|
||
|
JNE32 %Set_Expression_Loop ; Otherwise keep looping
|
||
|
|
||
|
POP_EDX ; Restore EDX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
POP_EAX ; Restore EAX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; Process_String function
|
||
|
;; Recieves List in EAX
|
||
|
;; Update the list in place; does not modify registers
|
||
|
;; Uses EBX for I->TEXT, ECX for I and EDX for S
|
||
|
:Process_String
|
||
|
PUSH_EAX ; Protect EAX
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
COPY_EAX_to_ECX ; I = HEAD
|
||
|
:Process_String_loop
|
||
|
LOAD32_EAX_from_ECX_Immediate8 !8 ; I->TYPE
|
||
|
CMPI8_EAX !2 ; IF STRING == I->TYPE
|
||
|
JNE32 %Process_String_Next ; Skip to next
|
||
|
|
||
|
LOAD32_EBX_from_ECX_Immediate8 !16 ; I->TEXT
|
||
|
LOAD8_al_from_EBX ; I->TEXT[0]
|
||
|
MOVZX_al ; make it useful
|
||
|
CMPI8_EAX !39 ; IF '\'' == I->TEXT[0]
|
||
|
JNE32 %Process_String_Raw ; Deal with '\"'
|
||
|
|
||
|
;; Deal with '\''
|
||
|
ADDI8_EBX !1 ; I->TEXT + 1
|
||
|
STORE32_EBX_into_Address_ECX_Immediate8 !24 ; I->EXPRESSION = I->TEXT + 1
|
||
|
JMP32 %Process_String_Next ; Move on to next
|
||
|
|
||
|
:Process_String_Raw
|
||
|
COPY_EBX_to_EAX ; Get length of I->TEXT
|
||
|
CALL32 %string_length ; Do it
|
||
|
SHRI8_EAX !2 ; LENGTH = LENGTH >> 2
|
||
|
ADDI8_EAX !1 ; LENGTH = LENGTH + 1
|
||
|
SHLI8_EAX !3 ; LENGTH = LENGTH << 3
|
||
|
CALL32 %malloc ; Get string
|
||
|
COPY_EBX_to_EDX ; S = I->TEXT
|
||
|
ADDI8_EDX !1 ; S = S + 1
|
||
|
STORE32_EAX_into_Address_ECX_Immediate8 !24 ; I->EXPRESSION = hexify
|
||
|
COPY_EAX_to_EBX ; Put hexify buffer in ebx
|
||
|
|
||
|
:Process_String_Raw_Loop
|
||
|
LOAD8_al_from_EDX ; Read 1 chars
|
||
|
MOVZX_al ; Make it useful
|
||
|
ADDI8_EDX !1 ; S = S + 1
|
||
|
CMPI8_AL !0 ; Check for NULL
|
||
|
PUSH_FLAGS ; Protect condition
|
||
|
CALL32 %hex8 ; write them all
|
||
|
POP_FLAGS ; restore condition
|
||
|
JNE32 %Process_String_Raw_Loop ; Keep looping
|
||
|
|
||
|
:Process_String_Next
|
||
|
LOAD32_ECX_from_ECX ; I = I->NEXT
|
||
|
CMPI8_ECX !0 ; IF NULL == I
|
||
|
JNE32 %Process_String_loop ; Otherwise keep looping
|
||
|
|
||
|
POP_EDX ; Restore EDX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
POP_EAX ; Restore EAX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; string_length function
|
||
|
;; Recieves CHAR* in EAX
|
||
|
;; Returns INT in EAX
|
||
|
;; Uses EAX for CH, EBX for S and ECX for INDEX
|
||
|
:string_length
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
COPY_EAX_to_EBX ; Set S
|
||
|
LOADI32_ECX %0 ; INDEX = 0
|
||
|
:string_length_loop
|
||
|
LOAD8_al_from_EBX_indexed_ECX ; S[0]
|
||
|
MOVZX_al ; make it useful
|
||
|
CMPI8_EAX !0 ; IF NULL == S[0]
|
||
|
JE32 %string_length_done ; Stop
|
||
|
|
||
|
ADDI8_ECX !1 ; INDEX = INDEX + 1
|
||
|
JMP32 %string_length_loop ; Keep going
|
||
|
|
||
|
:string_length_done
|
||
|
COPY_ECX_to_EAX ; RETURN INDEX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; Eval_Immediates function
|
||
|
;; Recieves List in EAX
|
||
|
;; Updates the list in place; does not modify registers
|
||
|
;; Uses EBX for I->TEXT[0], ECX for I->TEXT[1] and EDX for I
|
||
|
:Eval_Immediates
|
||
|
PUSH_EAX ; Protect EAX
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
COPY_EAX_to_EDX ; I = HEAD
|
||
|
:Eval_Immediates_Loop
|
||
|
;; Check for MACRO
|
||
|
LOAD32_EAX_from_EDX_Immediate8 !8 ; I->TYPE
|
||
|
CMPI8_EAX !1 ; IF MACRO == I-TYPE
|
||
|
JE32 %Eval_Immediates_Next ; Skip to next
|
||
|
|
||
|
;; Check for NULL EXPRESSION
|
||
|
LOAD32_EAX_from_EDX_Immediate8 !24 ; I->EXPRESSION
|
||
|
CMPI8_EAX !0 ; IF NULL == I->EXPRESSION
|
||
|
JNE32 %Eval_Immediates_Next ; Skip to next
|
||
|
|
||
|
;; Check if number
|
||
|
LOAD32_EAX_from_EDX_Immediate8 !16 ; I->TEXT
|
||
|
LOAD8_bl_from_EAX ; I->TEXT[0]
|
||
|
MOVZX_bl ; Extend to use
|
||
|
ADDI8_EAX !1 ; I->TEXT + 1
|
||
|
LOAD8_cl_from_EAX ; I->TEXT[1]
|
||
|
MOVZX_cl ; Extend to use
|
||
|
CALL32 %numerate_string ; Convert string to INT
|
||
|
CMPI8_EAX !0 ; IF 0 == numerate_number(I->TEXT + 1)
|
||
|
JNE32 %Eval_Immediates_value ; Has a value
|
||
|
|
||
|
;; Last chance for Immediate
|
||
|
CMPI8_ECX !48 ; If '0' == I->TEXT[1]
|
||
|
JNE32 %Eval_Immediates_Next ; Skip to next
|
||
|
|
||
|
:Eval_Immediates_value
|
||
|
CALL32 %express_number ; Convert value to hex string
|
||
|
STORE32_EAX_into_Address_EDX_Immediate8 !24 ; I->EXPRESSION = express_number(value, I-TEXT[0])
|
||
|
|
||
|
:Eval_Immediates_Next
|
||
|
LOAD32_EDX_from_EDX ; I = I->NEXT
|
||
|
CMPI8_EDX !0 ; IF NULL == I
|
||
|
JNE32 %Eval_Immediates_Loop ; Otherwise keep looping
|
||
|
|
||
|
POP_EDX ; Restore EDX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
POP_EAX ; Restore EAX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; numerate_string function
|
||
|
;; Recieves CHAR* in EAX
|
||
|
;; Returns value of CHAR* in EAX
|
||
|
;; Uses EAX for VALUE, EBX for S, ECX for CH and EDI for NEGATIVE?
|
||
|
:numerate_string
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
PUSH_EDI ; Protect EDI
|
||
|
COPY_EAX_to_EBX ; put S in correct place
|
||
|
LOADI32_EAX %0 ; Initialize to Zero
|
||
|
:numerate_string_loop
|
||
|
LOAD8_cl_from_EBX_Immediate8 !1 ; S[1]
|
||
|
MOVZX_cl ; make it useful
|
||
|
CMPI8_ECX !120 ; IF 'x' == S[1]
|
||
|
JE32 %numerate_hex ; Deal with hex input
|
||
|
|
||
|
;; Assume decimal input
|
||
|
LOADI32_ECX %0 ; Assume no negation
|
||
|
LOAD8_cl_from_EBX ; S[0]
|
||
|
MOVZX_cl ; make it useful
|
||
|
CMPI8_ECX !45 ; IF '-' == S[0]
|
||
|
JNE32 %numerate_decimal ; Skip negation
|
||
|
|
||
|
LOADI32_EDI %1 ; Set FLAG
|
||
|
ADDI8_EBX !1 ; S = S + 1
|
||
|
|
||
|
:numerate_decimal
|
||
|
LOAD8_cl_from_EBX ; S[0]
|
||
|
MOVZX_cl ; make it useful
|
||
|
CMPI8_ECX !0 ; IF NULL == S[0]
|
||
|
JE32 %numerate_decimal_done ; We are done
|
||
|
|
||
|
IMULI8_EAX !10 ; VALUE = VALUE * 10
|
||
|
SUBI8_ECX !48 ; CH = CH - '0'
|
||
|
CMPI8_ECX !9 ; Check for illegal
|
||
|
JG32 %numerate_string_fail ; If CH > '9'
|
||
|
CMPI8_ECX !0 ; Check for illegal
|
||
|
JL32 %numerate_string_fail ; IF CH < 0
|
||
|
ADD_ECX_to_EAX ; VALUE = VALUE + CH
|
||
|
ADDI8_EBX !1 ; S = S + 1
|
||
|
JMP32 %numerate_decimal ; Keep looping
|
||
|
|
||
|
:numerate_decimal_done
|
||
|
CMPI8_EDI !1 ; Check if need to negate
|
||
|
JNE32 %numerate_string_done ; Nope
|
||
|
|
||
|
IMULI8_EAX !-1 ; VALUE = VALUE * -1
|
||
|
JMP32 %numerate_string_done ; Done
|
||
|
|
||
|
:numerate_hex
|
||
|
ADDI8_EBX !2 ; S = S + 2
|
||
|
:numerate_hex_loop
|
||
|
LOAD8_cl_from_EBX ; S[0]
|
||
|
MOVZX_cl ; make it useful
|
||
|
CMPI8_ECX !0 ; IF NULL == S[0]
|
||
|
JE32 %numerate_string_done ; We are done
|
||
|
|
||
|
SHLI8_EAX !4 ; VALUE = VALUE << 4
|
||
|
SUBI8_ECX !48 ; CH = CH - '0'
|
||
|
CMPI8_ECX !10 ; IF 10 >= CH
|
||
|
JL32 %numerate_hex_digit ; NO
|
||
|
SUBI8_ECX !7 ; Push A-F into range
|
||
|
:numerate_hex_digit
|
||
|
CMPI8_ECX !15 ; Check for illegal
|
||
|
JG32 %numerate_string_fail ; If CH > 'F'
|
||
|
CMPI8_ECX !0 ; Check for illegal
|
||
|
JL32 %numerate_string_fail ; IF CH < 0
|
||
|
ADD_ECX_to_EAX ; VALUE = VALUE + CH
|
||
|
ADDI8_EBX !1 ; S = S + 1
|
||
|
JMP32 %numerate_hex_loop ; Keep looping
|
||
|
|
||
|
:numerate_string_fail
|
||
|
LOADI32_EAX %0 ; return ZERO
|
||
|
|
||
|
:numerate_string_done
|
||
|
POP_EDI ; Restore EDI
|
||
|
POP_EDX ; Restore EDX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; express_number function
|
||
|
;; Recieves INT in EAX and CHAR in EBX
|
||
|
;; Allocates a string and expresses the value in hex
|
||
|
;; Returns string in EAX
|
||
|
;; Uses EAX for VALUE, EBX for S and ECX for CH
|
||
|
:express_number
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
COPY_EBX_to_ECX ; Put CH in right place
|
||
|
COPY_EAX_to_EBX ; Protect VALUE
|
||
|
CMPI8_ECX !37 ; IF '%' == CH
|
||
|
JNE32 %express_number2 ; Otherwise try @
|
||
|
|
||
|
LOADI32_EAX %9 ; We need 3bytes
|
||
|
CALL32 %malloc ; Get S pointer
|
||
|
XCHG_EAX_EBX ; Put S and VALUE in place
|
||
|
PUSH_EBX ; Protect S
|
||
|
CALL32 %hex32l ; Store 32bits
|
||
|
JMP32 %express_number_done ; done
|
||
|
|
||
|
:express_number2
|
||
|
CMPI8_ECX !64 ; IF '@' == CH
|
||
|
JNE32 %express_number1 ; Othrewise try !
|
||
|
|
||
|
LOADI32_EAX %5 ; We need 3bytes
|
||
|
CALL32 %malloc ; Get S pointer
|
||
|
XCHG_EAX_EBX ; Put S and VALUE in place
|
||
|
PUSH_EBX ; Protect S
|
||
|
CALL32 %hex16l ; Store 16bits
|
||
|
JMP32 %express_number_done ; done
|
||
|
|
||
|
:express_number1
|
||
|
LOADI32_EAX %3 ; We need 3bytes
|
||
|
CALL32 %malloc ; Get S pointer
|
||
|
XCHG_EAX_EBX ; Put S and VALUE in place
|
||
|
PUSH_EBX ; Protect S
|
||
|
CALL32 %hex8 ; Store 8bit
|
||
|
|
||
|
:express_number_done
|
||
|
POP_EAX ; Restore S
|
||
|
POP_EDX ; Restore EDX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; HEX to ascii routine
|
||
|
;; Recieves INT in EAX and CHAR* in EBX
|
||
|
;; Stores ascii of INT in CHAR*
|
||
|
;; Returns only modifying EAX
|
||
|
:hex64l
|
||
|
PUSH_EAX ; Protect top 32
|
||
|
CALL32 %hex32l ; Store it
|
||
|
POP_EAX ; do top 32
|
||
|
SHRI8_EAX !32 ; do bottom 32 first
|
||
|
:hex32l
|
||
|
PUSH_EAX ; Protect top 16
|
||
|
CALL32 %hex16l ; Store it
|
||
|
POP_EAX ; do top 16
|
||
|
SHRI8_EAX !16 ; do bottom 16 first
|
||
|
:hex16l
|
||
|
PUSH_EAX ; Protect top byte
|
||
|
CALL32 %hex8 ; Store it
|
||
|
POP_EAX ; do high byte
|
||
|
SHRI8_EAX !8 ; do bottom byte first
|
||
|
:hex8
|
||
|
PUSH_EAX ; Protect bottom nibble
|
||
|
SHRI8_EAX !4 ; do high nibble first
|
||
|
CALL32 %hex4 ; Store it
|
||
|
POP_EAX ; do low nibble
|
||
|
:hex4
|
||
|
ANDI8_EAX !0xF ; isolate nibble
|
||
|
ADDI8_AL !48 ; convert to ascii
|
||
|
CMPI8_AL !57 ; valid digit?
|
||
|
JBE32 %hex1 ; yes
|
||
|
ADDI8_AL !7 ; use alpha range
|
||
|
:hex1
|
||
|
STORE8_al_into_Address_EBX ; store result
|
||
|
ADDI8_EBX !1 ; next position
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; Preserve_Other function
|
||
|
;; Recieves List in EAX
|
||
|
;; Updates the list in place; does not modify registers
|
||
|
;; Uses EAX for I, EBX for I->TEXT
|
||
|
:Preserve_Other
|
||
|
PUSH_EAX ; Protect EAX
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
:Preserve_Other_Loop
|
||
|
LOAD32_EBX_from_EAX_Immediate8 !24 ; I->EXPRESSION
|
||
|
CMPI8_EBX !0 ; IF NULL == I->EXPRESSION
|
||
|
JNE32 %Preserve_Other_Next ; Otherwise next
|
||
|
|
||
|
;; Needs preserving
|
||
|
LOAD32_EBX_from_EAX_Immediate8 !16 ; I->TEXT
|
||
|
STORE32_EBX_into_Address_EAX_Immediate8 !24 ; I->EXPRESSION = I->TEXT
|
||
|
|
||
|
:Preserve_Other_Next
|
||
|
LOAD32_EAX_from_EAX ; I = I->NEXT
|
||
|
CMPI8_EAX !0 ; IF NULL == I
|
||
|
JNE32 %Preserve_Other_Loop ; Otherwise keep looping
|
||
|
|
||
|
POP_EDX ; Restore EDX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
POP_EAX ; Restore EAX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; Print_Hex function
|
||
|
;; Recieves list in EAX
|
||
|
;; walks the list and prints the I->EXPRESSION for all nodes followed by newline
|
||
|
;; Uses EBX for I
|
||
|
:Print_Hex
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
COPY_EBP_to_EBX ; I = Head
|
||
|
:Print_Hex_Loop
|
||
|
LOAD32_EAX_from_EBX_Immediate8 !8 ; I->TYPE
|
||
|
CMPI8_EAX !1 ; IF MACRO == I->TYPE
|
||
|
JE32 %Print_Hex_Next ; Skip
|
||
|
|
||
|
LOAD32_EAX_from_EBX_Immediate8 !24 ; Using EXPRESSION
|
||
|
CALL32 %File_Print ; Print it
|
||
|
LOADI32_EAX %10 ; NEWLINE
|
||
|
CALL32 %fputc ; Append it
|
||
|
|
||
|
:Print_Hex_Next
|
||
|
LOAD32_EBX_from_EBX ; Iterate to next Token
|
||
|
CMPI8_EBX !0 ; Check for NULL
|
||
|
JNE32 %Print_Hex_Loop ; Otherwise keep looping
|
||
|
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; File_Print function
|
||
|
;; Recieves CHAR* in EAX
|
||
|
;; calls fputc for every non-null char
|
||
|
:File_Print
|
||
|
PUSH_EBX ; Protect EBX
|
||
|
PUSH_ECX ; Protect ECX
|
||
|
COPY_EAX_to_EBX ; Protect S
|
||
|
CMPI8_EAX !0 ; Protect against nulls
|
||
|
JE32 %File_Print_Done ; Simply don't try to print them
|
||
|
:File_Print_Loop
|
||
|
LOAD8_al_from_EBX ; Read byte
|
||
|
MOVZX_al ; zero extend
|
||
|
CMPI8_EAX !0 ; Check for NULL
|
||
|
JE32 %File_Print_Done ; Stop at NULL
|
||
|
|
||
|
CALL32 %fputc ; write it
|
||
|
ADDI8_EBX !1 ; S = S + 1
|
||
|
JMP32 %File_Print_Loop ; Keep going
|
||
|
|
||
|
:File_Print_Done
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EBX ; Restore EBX
|
||
|
RET
|
||
|
|
||
|
|
||
|
;; fputc function
|
||
|
;; recieves CHAR in EAX and FILE* in [Output]
|
||
|
;; writes char and returns
|
||
|
:fputc
|
||
|
PUSH_EDX ; Protect EDX
|
||
|
PUSH_ECX ; protect ECX
|
||
|
PUSH_EBX ; protect EBX
|
||
|
PUSH_EAX ; We are writing eax
|
||
|
LEA32_ECX_from_esp ; Get stack address
|
||
|
LOAD32_Absolute32_ebx &Output ; Write to target file
|
||
|
LOADI32_EAX %4 ; the syscall number for write
|
||
|
LOADI32_EDX %1 ; set the size of chars we want
|
||
|
INT_80 ; call the Kernel
|
||
|
POP_EAX ; Restore stack
|
||
|
POP_EBX ; Restore EBX
|
||
|
POP_ECX ; Restore ECX
|
||
|
POP_EDX ; Restore EDX
|
||
|
RET
|
||
|
|
||
|
:Output
|
||
|
NULL
|
||
|
:Input
|
||
|
NULL
|
||
|
:ELF_end
|