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kvisc/vm/in/INSTRS
2019-06-12 15:30:35 +02:00

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8.6 KiB
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# The OS/K Team licenses this file to you under the MIT license.
# See the LICENSE file in the project root for more information.
#---------------------------------------------------------------------------#
# Special instructions #
#---------------------------------------------------------------------------#
#
# Initiate machine shutdown (STOP)
#
# THROW #SHT
#
# Throws:
# #SYS if not in supervisor mode
# #ILL if disabled through DV
# #SHT otherwise
#
stop
#---------------------------------------------------------------------------#
# Logical instructions #
#---------------------------------------------------------------------------#
#
# Bitwise NOT operation
#
# $1 = NOT($1)
#
# Preserves all flags
#
not rm
#
# Bitwise OR operation
#
# $1 = $1 OR $2
#
# Clears OF and CF
# Sets ZF and SF according to the result
#
or rm rim
orf rm rim
#
# Bitwise AND operation
#
# $1 = $1 AND $2
#
# Clears OF and CF
# Sets ZF and SF according to the result
#
and rm rim
andf rm rim
#
# Bitwise XOR operation
#
# $1 = $1 XOR $2
#
# Clears OF and CF
# Sets ZF and SF according to the result
#
xor rm rim
xorf rm rim
# To document
shl rm rim
shr rm rim
shlf rm rim
shrf rm rim
#---------------------------------------------------------------------------#
# Arithmetic instructions #
#---------------------------------------------------------------------------#
#
# Arithmetical SGN operation
#
# IF ($1 == 0) THEN
# $2 = 0
# ELIF ($1 GT 0) THEN
# $2 = 1
# ELSE
# $2 = LONG_MIN
# FI
#
# Treats $1 and $2 as signed values
# Sets ZF and SF according to the result
#
sgn rm rim
sgnf rm rim
#
# Arithmetical NEG operation
#
# $1 = NOT($1) + 1
#
# Sets CF if $1 == 0; clears it otherwise
# Sets OF if $1 == $LONG_MIN; clears it otherwise
# Sets ZF and SF according to the result
#
neg rm
negf rm
#
# Arithmetical INC operation
#
# $1 = $1 + 1
#
# Preserves CF
# Sets OF if $1 == $LONG_MAX, clears it otherwise
# Sets ZF and SF according to the result
#
inc rm
incf rm
#
# Arithmetical DEC operation
#
# $1 = $1 - 1
#
# Preserves CF
# Sets OF if $1 == $LONG_MIN, clears it otherwise
# Sets ZF and SF according to the result
#
dec rm
decf rm
#
# Arithmetical ADD operation
#
# $1 = $1 + $2
#
# Sets CF if unsigned integer overflow occur, clears it otherwise
# Sets OF is signed integer overflow occur, clears it otherwise
# Sets ZF and SF according to the result
#
add rm rim
addf rm rim
#
# Arithmetical SUB operation
#
# $1 = $1 - $2
#
# Sets CF if unsigned integer overflow occur, clears it otherwise
# Sets OF is signed integer overflow occur, clears it otherwise
# Sets ZF and SF according to the result
#
sub rm rim
subf rm rim
#
# Arithmetical unsigned MUL operation
#
# $1 = LO($1 * $2)
#
# Sets CF and OF if HI($1 * $2) > 0, clears them otherwise
# Preserves ZF and SF
#
mul rm rim
mulf rm rim
#
# Arithmetical unsigned DIV operation
#
# $1 = $1 DIV $2
#
# Preserves all flags
#
div rm rim
#
# Arithmetical unsigned MOD operation
#
# $1 = $1 MOD $2
#
# Preserves all flags
#
mod rm rim
#
# Arithmetical unsigned 128-bit MUL operation
#
# RDX = HI(RAX * $1)
# RAX = LO(RAX * $1)
#
# Sets CF and OF if HI($1 * $2) > 0, clears them otherwise
# Preserves ZF and SF
#
mul2 rim
mul2f rim
#
# Arithmetical unsigned combined DIV and MOD operations
#
# RDX = (RAX MOD $1)
# RAX = (RAX DIV $1)
#
# Preserves all flags
#
div2 rim
#---------------------------------------------------------------------------#
# Comparison instructions #
#---------------------------------------------------------------------------#
#
# TEST Comparaison instruction
#
# $1 AND $2
#
# Clears OF and CF
# Sets ZF and SF according to the result
#
test rim rim
#
# CMP Comparaison instruction
#
# $1 - $2
#
# Sets CF if unsigned integer overflow occur, clears it otherwise
# Sets OF is signed integer overflow occur, clears it otherwise
# Sets ZF and SF according to the result
#
cmp rim rim
#---------------------------------------------------------------------------#
# Jump instructions #
#---------------------------------------------------------------------------#
#
# Unconditional jump (JMP) instruction
#
# RIP = CR1 + $1
#
j ri
jmp ri
#
# RCX-dependent jump (LOOP) instruction
#
# IF (RCX > 0) THEN
# RCX = RCX - 1
# RIP = CR1 + $1
# FI
#
loop ri
#---------------------------------------------------------------------------#
# Movement instructions #
#---------------------------------------------------------------------------#
#
# Load Effective Address (LEA) instruction
#
# $1 = ADDR($2)
#
# For instance:
# LEA RAX, [RBX + RCX + 4]
# will result in:
# RAX = RBX + RCX + 4
#
# Preserves all flags
#
lea rm m
#
# Movement (MOV) instruction
#
# $1 = $2
#
mov rm rim
#
# Exchange (XCHG) instruction
#
# $_ = $1
# $1 = $2
# $2 = $_
#
xchg rm rim
#
# Compare-and-exchange (CMPXCHG) instruction
#
# IF ($1 == RAX) THEN
# $1 = $2
# ZF = 1
# ELSE
# RAX = $1
# ZF = 0
# FI
#
# Preserves CF, OF and SF
#
cmpxchg rm rim
# Undocumented
# movb rm rim
# movw rm rim
# movl rm rim
# movt rm rim
#---------------------------------------------------------------------------#
# Stack manipulation instructions #
#---------------------------------------------------------------------------#
#
# PUSH value onto stack
#
# RSP = RSP - 8
# *RSP = $1
#
# Throws:
# #STA if RBP MOD 8 > 0
# #STA if RSP MOD 8 > 0
# #STU if RSP > RBP
#
push rim
#
# POP value from stack
#
# $1 = *RSP
# RSP = RSP + 8
#
# Throws:
# #STA if RBP MOD 8 > 0
# #STA if RSP MOD 8 > 0
# #STU if RSP >= RBP
#
pop rm
#
# Unconditional jump with possible return (CALL)
#
# PUSH(RIP)
# JMP(RIP)
#
# Throws:
# See PUSH and JMP
#
call rim
#
# Return to caller (RET)
#
# POP(RIP)
#
# Throws:
# See POP
#
ret
#
# Make new stack frame (ENTER)
#
# PUSH(RBP)
# RBP = RSP
#
# Throws:
# See PUSH
#
enter
#
# Leave stack frame (LEAVE)
#
# RBP = *RSP
# RSP = RSP + 8
#
leave
#---------------------------------------------------------------------------#
# Supervisor only instructions #
#---------------------------------------------------------------------------#
pushf
popf
#
# Clear or set interrupt flag (CLI/STI)
#
# Throws:
# #SYS if not in supervisor mode
#
cli
sti
#
# Call an architecture-reserved function slot of device (DEVCTL)
#
# See dv/DEVAPI
#
devctl rim rim
#
# Call a device-defined function slot of device (IOCALL)
#
# See dv/DEVAPI
#
iocall rim rim
#---------------------------------------------------------------------------#
# Misc. instructions #
#---------------------------------------------------------------------------#
#
# Do nothing (NOOP)
#
# (nothing)
#
# Throws:
# (nothing)
#
# Preserves all flags
#
nop
#
# Get code/date offset (GCO/GCD)
#
# $1 = CR1 (GCO)
# $1 = CR2 (GCD)
#
gco rm
gcd rm
#
# Clear base volatile registers (CLR)
#
# RAX = RBX = RCX = RDX = 0
# RSX = RBI = RDI = RSI = 0
#
clr
#
# Clear argument registers (CLA)
#
# AX0 = AX1 = AX2 = AX3 = 0
# AX4 = AX5 = AX6 = AX7 = 0
#
cla
#
# Clear base non-volatile registers (CLN)
#
# NX0 = NX1 = NX2 = NX3 = 0
# NX4 = NX5 = NX6 = NX7 = 0
#
cln
#
# Send a character to standard output
#
# Throws:
# #PRN if DV text mode enabled
# #PRN if graphic mode enabled
#
prn rim
#---------------------------------------------------------------------------#
# Debugging instructions #
#---------------------------------------------------------------------------#
#
# Breakpoint instruction (BREAK)
#
# (cause register dump on standard error)
# (wait for user input before proceeeding)
#
break
#
# Step-by-step execution (STEP)
#
# IF $1 == 0 THEN
# (disable step-by-step execution)
# ELSE
# (enable step-by-step execution)
# FI
#
step rim
#---------------------------------------------------------------------------#