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Add instruction visitor, which traverses memory and choosing instructions

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Signed-off-by: Alek Ratzloff <alekratz@gmail.com>
This commit is contained in:
Alek Ratzloff
2020-02-10 13:22:54 -05:00
parent c982be553f
commit 6c352396fa
5 changed files with 287 additions and 128 deletions
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4
src/vm/error.rs
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@@ -1,4 +1,4 @@
use crate::vm::{vm::*, reg::Reg};
use crate::vm::{inst::InstOp, reg::Reg, vm::*};
use snafu::Snafu;
#[derive(Snafu, Debug, Clone)]
@@ -7,6 +7,8 @@ pub enum VmError {
IllegalReg { reg: Reg },
#[snafu(display("memory address out of bounds: 0x{:016x}", addr))]
MemOutOfBounds { addr: Addr },
#[snafu(display("illegal instruction opcode: 0x{:04x}", op))]
IllegalOp { op: InstOp },
}
pub type Result<T, E = VmError> = std::result::Result<T, E>;

1
src/vm/mod.rs
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@@ -5,4 +5,5 @@ pub mod mem;
pub mod obj;
pub mod reg;
mod tick;
pub mod visit;
pub mod vm;

308
src/vm/tick.rs
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@@ -1,134 +1,190 @@
use crate::vm::{error::*, flags::Flags, inst::*, reg::*, vm::*};
use crate::vm::{error::*, flags::Flags, inst::*, reg::*, vm::*, visit::*, mem::MemCursor};
use std::io::stdin;
impl Vm {
pub fn tick(&mut self) -> Result<()> {
let mut cursor = self.mem_cursor(self.ip() as usize);
let op = cursor.next_u16()?;
let next_ip;
macro_rules! math_inst {
($mapping:expr) => {{
let (r1, r2) = cursor.next_regs()?;
next_ip = cursor.position();
let value = ($mapping)(self.get_reg_checked(r1)?, self.get_reg_checked(r2)?);
self.set_reg(r1, value);
}};
}
match op {
ADD => math_inst!(|w1: u64, w2: u64| w1.wrapping_add(w2)),
MUL => math_inst!(|w1: u64, w2: u64| w1.wrapping_mul(w2)),
DIV => math_inst!(|w1: u64, w2: u64| w1.wrapping_div(w2)),
MOD => math_inst!(|w1: u64, w2: u64| w1 % w2),
INEG => todo!(),
AND => math_inst!(|w1: u64, w2: u64| w1 & w2),
OR => math_inst!(|w1: u64, w2: u64| w1 | w2),
INV => {
let r1 = cursor.next_reg()?;
next_ip = cursor.position();
let value = self.get_reg_checked(r1)?;
self.set_reg(r1, !value);
}
NOT => {
let r1 = cursor.next_reg()?;
next_ip = cursor.position();
let value = self.get_reg(r1);
self.set_reg(r1, (value == 0) as Word);
}
XOR => math_inst!(|w1: u64, w2: u64| w1 ^ w2),
SHL => math_inst!(|w1: u64, w2: u64| w1 << w2),
SHR => math_inst!(|w1: u64, w2: u64| w1 >> w2),
CMPEQ => {
let (r1, r2) = cursor.next_regs()?;
next_ip = cursor.position();
let cmp = self.get_reg(r1) == self.get_reg(r2);
if cmp {
self.insert_flags(Flags::COMPARE);
} else {
self.remove_flags(Flags::COMPARE);
}
}
CMPLT => {
let (r1, r2) = cursor.next_regs()?;
next_ip = cursor.position();
let cmp = self.get_reg(r1) < self.get_reg(r2);
if cmp {
self.insert_flags(Flags::COMPARE);
} else {
self.remove_flags(Flags::COMPARE);
}
}
JMP => {
let r1 = cursor.next_reg()?;
next_ip = self.get_reg(r1);
}
JZ => {
let r1 = cursor.next_reg()?;
if !self.flags().contains(Flags::COMPARE) {
next_ip = self.get_reg(r1);
} else {
next_ip = cursor.position();
}
}
JNZ => {
let r1 = cursor.next_reg()?;
if self.flags().contains(Flags::COMPARE) {
next_ip = self.get_reg(r1);
} else {
next_ip = cursor.position();
}
}
LOAD => {
let (r1, r2) = cursor.next_regs()?;
next_ip = cursor.position();
let value = self.load(r2)?;
self.set_reg_checked(r1, value)?;
}
REGCOPY => math_inst!(|_: u64, w2: u64| w2),
STOREIMM64 => {
let r1 = cursor.next_reg()?;
// skip
cursor.next_u32()?;
let imm = cursor.next_u64()?;
next_ip = cursor.position();
self.set_reg(r1, imm);
}
STOREIMM32 => {
let r1 = cursor.next_reg()?;
let imm = cursor.next_u32()?;
next_ip = cursor.position();
self.set_reg(r1, imm as u64);
}
MEMCOPY => {
let (r1, r2) = cursor.next_regs()?;
next_ip = cursor.position();
let value = self.load(r2)?;
self.store(r1, value)?;
}
STORE => {
let (r1, r2) = cursor.next_regs()?;
next_ip = cursor.position();
let value = self.get_reg(r1);
self.store(r2, value)?;
}
HALT => {
next_ip = cursor.position();
self.insert_flags(Flags::HALT);
}
NOP => {
next_ip = cursor.position();
}
_ => panic!("unknown instruction opcode: 0x{:04x}", op),
}
println!("op: {:04x} {}", op, inst_name(op).unwrap());
println!("ip: {:05x}", self.ip());
println!("next_ip: {:05x}", next_ip);
let mut _line = String::new();
stdin().read_line(&mut _line).unwrap();
let next_ip = visit_inst(self)?;
self.set_reg(IP, next_ip);
Ok(())
}
fn next_ip(&self) -> Result<Addr> {
let ip = self.ip();
let op = self.get_inst_op(ip)?;
Ok(ip + (inst_len(op) as u64))
}
fn with_regs<F, B>(&mut self, r1: Reg, r2: Reg, mapping: F) -> B
where F: FnOnce(Word, Word) -> B
{
let w1 = self.get_reg(r1);
let w2 = self.get_reg(r2);
(mapping)(w1, w2)
}
}
impl InstAcceptor for Vm {
type Out = Addr;
fn cursor(&self) -> MemCursor {
self.mem_cursor(self.ip() as usize)
}
fn add(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let out = self.with_regs(r1, r2, |w1, w2| w1.wrapping_add(w2));
self.set_reg(r1, out);
self.next_ip()
}
fn mul(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let out = self.with_regs(r1, r2, |w1, w2| w1.wrapping_mul(w2));
self.set_reg(r1, out);
self.next_ip()
}
fn div(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
// TODO : check w2 == 0 and throw error/exception
let out = self.with_regs(r1, r2, |w1, w2| w1 / w2);
self.set_reg(r1, out);
self.next_ip()
}
fn mod_(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
// TODO : check w2 == 0 and throw error/exception
let out = self.with_regs(r1, r2, |w1, w2| w1 % w2);
self.set_reg(r1, out);
self.next_ip()
}
fn ineg(&mut self, r1: Reg) -> Result<Self::Out> {
let w1 = self.get_reg(r1);
self.set_reg(r1, (!w1).wrapping_add(1));
self.next_ip()
}
fn and(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let out = self.with_regs(r1, r2, |w1, w2| w1 & w2);
self.set_reg(r1, out);
self.next_ip()
}
fn or(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let out = self.with_regs(r1, r2, |w1, w2| w1 | w2);
self.set_reg(r1, out);
self.next_ip()
}
fn inv(&mut self, r1: Reg) -> Result<Self::Out> {
let w1 = self.get_reg(r1);
self.set_reg(r1, !w1);
self.next_ip()
}
fn not(&mut self, r1: Reg) -> Result<Self::Out> {
let w1 = self.get_reg(r1);
self.set_reg(r1, (w1 == 0) as Word);
self.next_ip()
}
fn xor(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let out = self.with_regs(r1, r2, |w1, w2| w1 ^ w2);
self.set_reg(r1, out);
self.next_ip()
}
fn shl(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let out = self.with_regs(r1, r2, |w1, w2| w1 << w2);
self.set_reg(r1, out);
self.next_ip()
}
fn shr(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let out = self.with_regs(r1, r2, |w1, w2| w1 >> w2);
self.set_reg(r1, out);
self.next_ip()
}
fn cmpeq(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let cmp = self.with_regs(r1, r2, |w1, w2| w1 == w2);
if cmp {
self.insert_flags(Flags::COMPARE);
} else {
self.remove_flags(Flags::COMPARE);
}
self.next_ip()
}
fn cmplt(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let cmp = self.with_regs(r1, r2, |w1, w2| w1 < w2);
if cmp {
self.insert_flags(Flags::COMPARE);
} else {
self.remove_flags(Flags::COMPARE);
}
self.next_ip()
}
fn jmp(&mut self, r1: Reg) -> Result<Self::Out> {
let addr = self.get_reg(r1);
Ok(addr)
}
fn jz(&mut self, r1: Reg) -> Result<Self::Out> {
if !self.flags().contains(Flags::COMPARE) {
Ok(self.get_reg(r1))
} else {
self.next_ip()
}
}
fn jnz(&mut self, r1: Reg) -> Result<Self::Out> {
if self.flags().contains(Flags::COMPARE) {
Ok(self.get_reg(r1))
} else {
self.next_ip()
}
}
fn load(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let value = Vm::load(self, r2)?;
self.set_reg_checked(r1, value)?;
self.next_ip()
}
fn regcopy(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let value = self.get_reg_checked(r2)?;
self.set_reg_checked(r1, value)?;
self.next_ip()
}
fn storeimm64(&mut self, r1: Reg, w1: Word) -> Result<Self::Out> {
self.set_reg_checked(r1, w1)?;
self.next_ip()
}
fn storeimm32(&mut self, r1: Reg, w1: HalfWord) -> Result<Self::Out> {
self.set_reg_checked(r1, w1 as Word)?;
self.next_ip()
}
fn memcopy(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let value = Vm::load(self, r2)?;
self.store(r1, value)?;
self.next_ip()
}
fn store(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out> {
let value = self.get_reg_checked(r1)?;
self.store(r2, value)?;
self.next_ip()
}
fn halt(&mut self) -> Result<Self::Out> {
self.insert_flags(Flags::HALT);
self.next_ip()
}
fn nop(&mut self) -> Result<Self::Out> {
self.next_ip()
}
}

95
src/vm/visit.rs Normal file
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@@ -0,0 +1,95 @@
use crate::vm::{
error::*,
inst::*,
mem::MemCursor,
reg::Reg,
vm::{HalfWord, Word},
};
pub trait InstAcceptor {
type Out;
fn cursor(&self) -> MemCursor;
fn add(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn mul(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn div(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn mod_(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn ineg(&mut self, r1: Reg) -> Result<Self::Out>;
fn and(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn or(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn inv(&mut self, r1: Reg) -> Result<Self::Out>;
fn not(&mut self, r1: Reg) -> Result<Self::Out>;
fn xor(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn shl(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn shr(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn cmpeq(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn cmplt(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn jmp(&mut self, r1: Reg) -> Result<Self::Out>;
fn jz(&mut self, r1: Reg) -> Result<Self::Out>;
fn jnz(&mut self, r1: Reg) -> Result<Self::Out>;
fn load(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn regcopy(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn storeimm64(&mut self, r1: Reg, w1: Word) -> Result<Self::Out>;
fn storeimm32(&mut self, r1: Reg, w1: HalfWord) -> Result<Self::Out>;
fn memcopy(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn store(&mut self, r1: Reg, r2: Reg) -> Result<Self::Out>;
fn halt(&mut self) -> Result<Self::Out>;
fn nop(&mut self) -> Result<Self::Out>;
}
pub fn visit_inst<A: InstAcceptor>(acceptor: &mut A) -> Result<A::Out> {
let mut cursor = acceptor.cursor();
let op = cursor.next_u16()?;
macro_rules! r1_r2_inst {
($fun:ident) => {{
let (r1, r2) = cursor.next_regs()?;
acceptor.$fun(r1, r2)
}};
}
macro_rules! r1_inst {
($fun:ident) => {{
let r1 = cursor.next_reg()?;
acceptor.$fun(r1)
}};
}
match op {
ADD => r1_r2_inst!(add),
MUL => r1_r2_inst!(mul),
DIV => r1_r2_inst!(div),
MOD => r1_r2_inst!(mod_),
INEG => r1_inst!(ineg),
AND => r1_r2_inst!(and),
OR => r1_r2_inst!(or),
INV => r1_inst!(inv),
NOT => r1_inst!(not),
XOR => r1_r2_inst!(xor),
SHL => r1_r2_inst!(shl),
SHR => r1_r2_inst!(shr),
CMPEQ => r1_r2_inst!(cmpeq),
CMPLT => r1_r2_inst!(cmplt),
JMP => r1_inst!(jmp),
JZ => r1_inst!(jz),
JNZ => r1_inst!(jnz),
LOAD => r1_r2_inst!(load),
REGCOPY => r1_r2_inst!(regcopy),
STOREIMM64 => {
let r1 = cursor.next_reg()?;
// skip
cursor.next_u32()?;
let imm = cursor.next_u64()?;
acceptor.storeimm64(r1, imm)
}
STOREIMM32 => {
let r1 = cursor.next_reg()?;
let imm = cursor.next_u32()?;
acceptor.storeimm32(r1, imm)
}
MEMCOPY => r1_r2_inst!(memcopy),
STORE => r1_r2_inst!(store),
HALT => acceptor.halt(),
NOP => acceptor.nop(),
_ => Err(VmError::IllegalOp { op }),
}
}

7
src/vm/vm.rs
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@@ -1,4 +1,4 @@
use crate::vm::{error::*, flags::*, mem::*, obj::obj::*, reg::*};
use crate::vm::{error::*, flags::*, inst::InstOp, mem::*, obj::obj::*, reg::*};
use byteorder::{WriteBytesExt, LE};
use std::{io::Cursor, mem};
@@ -101,6 +101,11 @@ impl Vm {
Ok(self.mem_cursor(addr as usize).next_u32().unwrap())
}
pub fn get_inst_op(&self, addr: Addr) -> Result<InstOp> {
self.check_read(addr, 2)?;
Ok(self.mem_cursor(addr as usize).next_u16().unwrap())
}
pub fn get_byte(&self, addr: Addr) -> Result<u8> {
self.check_addr(addr)?;
Ok(self.mem_cursor(addr as usize).next_u8().unwrap())