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MicroKernel.asm
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MicroKernel.asm
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; 8080 assembler code
.hexfile MicroKernel.hex
.binfile MicroKernel.com
; try "hex" for downloading in hex format
.download bin
.objcopy gobjcopy
.postbuild echo "OK!"
;.nodump
; OS call list
PRINT_B equ 4
PRINT_MEM equ 3
READ_B equ 7
READ_MEM equ 2
PRINT_STR equ 1
READ_STR equ 8
LOAD_EXEC equ 5
PROCESS_EXIT equ 9
SET_QUANTUM equ 6
; Position for stack pointer
stack equ 4000h
org 0028H
handleInterrupt:
DI
jmp readFromInterruptBuffer
org 0000H
jmp begin
; Start of our Operating System
GTU_OS: PUSH D
push D
push H
push psw
nop ; This is where we run our OS in C++, see the CPU8080::isSystemCall()
; function for the detail.
pop psw
pop h
pop d
pop D
ret
; ---------------------------------------------------------------
; YOU SHOULD NOT CHANGE ANYTHING ABOVE THIS LINE
org 0D00H
sum ds 1 ; will keep the sum
sumName: dw 'Sum.com', 00H
runningProcess ds 2 ; will keep the running process
collatzName: dw 'Collatz.com', 00H
primeName: dw 'Primes.com', 00H
initName: dw 'init', 00H
processStates: dw 'PID -- Process Name -- PC.LOW -- PC.HIGH -- BASE.LOW -- BASE.HI', 00AH, 00H
line: dw ' -- ', 00H
nl: dw 00AH,00H
printNL:
LXI B,nl
MVI A,PRINT_STR
CALL GTU_OS
RET
begin:
DI
LXI SP, stack ; always initialize the stack pointer
MVI A, 0
STA runningProcess
STA sum
;Set next
MVI A, 1
LXI H, 0202H ;Next pointer of first process
MOV M, A
;Set base
LXI H,020Eh
MVI M,0
INX H
MVI M,0
;Set stack
LXI H,020Ah
MVI M,00H
INX H
MVI M,40H
;Set ProcessName
LXI H, 0211H
LXI B, initName
MOV M, B
INX H
MOV M, C
;Load first program
LXI B, sumName
MVI H, 040H
MVI L, 000H
MVI A, LOAD_EXEC
CALL GTU_OS
;Set next
MVI A, 2
LXI H, 0302H ;Next pointer of first process
MOV M, A
;Set base
LXI H, 030Eh
MVI M, 000H
INX H
MVI M, 040H
;Set stack
LXI H,030Ah
MVI M,00H
INX H
MVI M,40H
;Set ProcessName
LXI H, 0311H
LXI B, sumName
MOV M, B
INX H
MOV M, C
;Load second program
LXI B, collatzName
MVI H, 080H
MVI L, 000H
MVI A, LOAD_EXEC
CALL GTU_OS
;Set next
MVI A, 3
LXI H, 402H ;Next pointer of second process
MOV M, A
;Set base
LXI H, 040EH
MVI M, 000H
INX H
MVI M, 080H
;Set stack
LXI H,040Ah
MVI M,00H
INX H
MVI M,40H
;Set ProcessName
LXI H, 0411H
LXI B, collatzName
MOV M, B
INX H
MOV M, C
;Load third program
LXI B, primeName
MVI H, 0C0H
MVI L, 000H
MVI A, LOAD_EXEC
CALL GTU_OS
;Set next
MVI A, 0
LXI H, 0502H ;Next pointer of third process
MOV M, A
;Set base
LXI H, 050Eh
MVI M, 000H
INX H
MVI M, 0C0H
;Set stack
LXI H,050Ah
MVI M,00H
INX H
MVI M,40H
;Set ProcessName
LXI H, 0511H
LXI B, primeName
MOV M, B
INX H
MOV M, C
EI
LOOP:
LDA sum
SUI 1
JNZ LOOP
hlt
readFromInterruptBuffer:
LDA runningProcess ; A = runningProcess
PUSH PSW
MOV B, A ; B holds running process too
MVI C, 0 ; C=0
ADI 2 ; A=A+2
MOV H, A ; H=A
MVI L, 0 ; L=0 | HL now holds the pointer
;ProcessState
MVI M, 0 ; set process to ready | 1=running, 0=ready
;ProcessNumber
INX H
MOV M, B
;Next
INX H
MOV A, M ; next process id is now in A
MOV B, A ; B holds process id too, which will be used later
; Start getting entries from interrupt buffer
LXI D, 256 ; DE -> 256
;Register A
INX H
LDAX D ; get Register A from interrupt buffer
MOV M, A
;Register B
INX D ;257
INX H
LDAX D
MOV M, A
;Register C
INX D ;258
INX H
LDAX D
MOV M, A
;Register D
INX D ;259
INX H
LDAX D
MOV M, A
;Register E
INX D ;260
INX H
LDAX D
MOV M, A
;Register H
INX D ;261
INX H
LDAX D
MOV M, A
;Register L
INX D ;262
INX H
LDAX D
MOV M, A
;SP.LOW
INX D ;263
INX H
LDAX D
MOV M, A
;SP.HI
INX D ;264
INX H
LDAX D
MOV M, A
;PC.LOW
INX D ;265
INX H
LDAX D
MOV M, A
;PC.HI
INX D ;266
INX H
LDAX D
MOV M, A
;BASEREG.LOW
INX D ;267
INX H
LDAX D
MOV M, A
;BASEREG.HI
INX D ;268
INX H
LDAX D
MOV M, A
;CONDITION
INX D ;269
INX H
LDAX D
MOV M, A
;------------------------------------------------------------
;Print process states
;POP PSW ;A=CurrentProcess
;PUSH B
;PUSH PSW
;LXI B, processStates
;MVI A, PRINT_STR
;CALL GTU_OS
;POP PSW
;PROCESS ID
;PUSH PSW
;MOV B, A
;MVI A, PRINT_B
;CALL GTU_OS
;LXI B, line
;MVI A, PRINT_STR
;CALL GTU_OS
;POP PSW
;PROCESS NAME
;ADI 2
;MOV H, A
;MVI L, 11h
;MOV B, M
;INX H
;MOV C, M
;MVI A, PRINT_STR
;CALL GTU_OS
;LXI B, line
;MVI A, PRINT_STR
;CALL GTU_OS
;PC.LOW
;LXI D, 265 ;265
;LDAX D
;MOV B, A
;MVI A, PRINT_B
;CALL GTU_OS
;LXI B, line
;MVI A, PRINT_STR
;CALL GTU_OS
;PC.HI
;INX D ;266
;LDAX D
;MOV B, A
;MVI A, PRINT_B
;CALL GTU_OS
;LXI B, line
;MVI A, PRINT_STR
;CALL GTU_OS
;BASE.LOW
;INX D ;267
;LDAX D
;MOV B, A
;MVI A, PRINT_B
;CALL GTU_OS
;LXI B, line
;MVI A, PRINT_STR
;CALL GTU_OS
;BASE.HI
;INX D ;268
;LDAX D
;MOV B, A
;MVI A, PRINT_B
;CALL GTU_OS
;CALL printNL
;POP B
;------------------------------------------------------------
; Load process from process table according to next process id in B
MOV A, B
ADI 2
MOV H, A
MVI L, 0AH ; Now HL points to SP.LOW
MOV D, H ; D now holds backup of H, in order to be used after the sp is changed
MOV A, B ; A hold next process id
STA runningProcess
;B=SP.LOW
MOV B, M
;C=SP.HI
INX H
MOV C, M
;H=C, L=B
MOV H, C
MOV L, B
SPHL
;------------------------------------------------------------------
;A = process id
MOV H, D
MVI L, 0 ;HL holds pointer to process table.
;ProcessState
MVI M, 1
;ProcesNumber
INX H
MOV M, A
;Next
INX H
;Register D
INX H
INX H
INX H
INX H
MOV D, M
;REGISTER E
INX H
MOV E, M
PUSH D ; Keep DE in the bottom of stack
;REGISTER H
INX H
MOV B, M ; B=H from memory
;REGISTER L
INX H
MOV C, M ; C=L from memory
PUSH B ; Keep HL in stack
;Go back to the address of register A
;REGISTER A
ADI 2
MOV H, A
MVI L, 03H
MOV B,M
;CONDITION
MVI L, 10H
MOV C,M
PUSH B
;PC.HI
MVI L, 0DH
MOV B, M
;PC.LOW
MVI L, 0CH
MOV C, M
PUSH B
;BASEREG.HI
MVI L, 0FH
MOV B, M
;BASEREG.LOW
MVI L, 0EH
MOV C, M
PUSH B
;REGISTER B
MVI L, 04H
MOV B, M
;REGISTER C
MVI L, 05H
MOV C, M
POP D
POP H
POP PSW
EI
PCHL