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HoleyBytes, almost adhering the spec

- Changed instruction encoding to be faster to match on
- Implemented all instructions defined in spec
- Bytecode validation
- Assembler
- Implemented 5 level paging (based on SV57)
- Implemented some degree of interrupts (though not fully adhering the spec yet)
This commit is contained in:
Erin 2023-06-21 02:07:48 +02:00
parent fb78e0a44a
commit 06b1184772
31 changed files with 1635 additions and 538 deletions

146
Cargo.lock generated
View file

@ -13,6 +13,12 @@ dependencies = [
"version_check", "version_check",
] ]
[[package]]
name = "beef"
version = "0.5.2"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "3a8241f3ebb85c056b509d4327ad0358fbbba6ffb340bf388f26350aeda225b1"
[[package]] [[package]]
name = "cfg-if" name = "cfg-if"
version = "1.0.0" version = "1.0.0"
@ -20,8 +26,21 @@ source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "baf1de4339761588bc0619e3cbc0120ee582ebb74b53b4efbf79117bd2da40fd" checksum = "baf1de4339761588bc0619e3cbc0120ee582ebb74b53b4efbf79117bd2da40fd"
[[package]] [[package]]
name = "compiler" name = "delegate"
version = "0.1.0" version = "0.9.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "d358e0ec5c59a5e1603b933def447096886121660fc680dc1e64a0753981fe3c"
dependencies = [
"proc-macro2",
"quote",
"syn 1.0.109",
]
[[package]]
name = "fnv"
version = "1.0.7"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "3f9eec918d3f24069decb9af1554cad7c880e2da24a9afd88aca000531ab82c1"
[[package]] [[package]]
name = "hashbrown" name = "hashbrown"
@ -32,12 +51,39 @@ dependencies = [
"ahash", "ahash",
] ]
[[package]]
name = "hbasm"
version = "0.1.0"
dependencies = [
"hbbytecode",
"lasso",
"logos",
"paste",
]
[[package]]
name = "hbbytecode"
version = "0.1.0"
[[package]] [[package]]
name = "hbvm" name = "hbvm"
version = "0.1.0" version = "0.1.0"
dependencies = [ dependencies = [
"delegate",
"hashbrown", "hashbrown",
"hbbytecode",
"log", "log",
"paste",
"static_assertions",
]
[[package]]
name = "lasso"
version = "0.7.2"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "4644821e1c3d7a560fe13d842d13f587c07348a1a05d3a797152d41c90c56df2"
dependencies = [
"hashbrown",
] ]
[[package]] [[package]]
@ -49,12 +95,108 @@ dependencies = [
"cfg-if", "cfg-if",
] ]
[[package]]
name = "logos"
version = "0.13.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "c000ca4d908ff18ac99b93a062cb8958d331c3220719c52e77cb19cc6ac5d2c1"
dependencies = [
"logos-derive",
]
[[package]]
name = "logos-codegen"
version = "0.13.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "dc487311295e0002e452025d6b580b77bb17286de87b57138f3b5db711cded68"
dependencies = [
"beef",
"fnv",
"proc-macro2",
"quote",
"regex-syntax",
"syn 2.0.18",
]
[[package]]
name = "logos-derive"
version = "0.13.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "dbfc0d229f1f42d790440136d941afd806bc9e949e2bcb8faa813b0f00d1267e"
dependencies = [
"logos-codegen",
]
[[package]] [[package]]
name = "once_cell" name = "once_cell"
version = "1.17.1" version = "1.17.1"
source = "registry+https://github.com/rust-lang/crates.io-index" source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "b7e5500299e16ebb147ae15a00a942af264cf3688f47923b8fc2cd5858f23ad3" checksum = "b7e5500299e16ebb147ae15a00a942af264cf3688f47923b8fc2cd5858f23ad3"
[[package]]
name = "paste"
version = "1.0.12"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "9f746c4065a8fa3fe23974dd82f15431cc8d40779821001404d10d2e79ca7d79"
[[package]]
name = "proc-macro2"
version = "1.0.59"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "6aeca18b86b413c660b781aa319e4e2648a3e6f9eadc9b47e9038e6fe9f3451b"
dependencies = [
"unicode-ident",
]
[[package]]
name = "quote"
version = "1.0.28"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "1b9ab9c7eadfd8df19006f1cf1a4aed13540ed5cbc047010ece5826e10825488"
dependencies = [
"proc-macro2",
]
[[package]]
name = "regex-syntax"
version = "0.6.29"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "f162c6dd7b008981e4d40210aca20b4bd0f9b60ca9271061b07f78537722f2e1"
[[package]]
name = "static_assertions"
version = "1.1.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "a2eb9349b6444b326872e140eb1cf5e7c522154d69e7a0ffb0fb81c06b37543f"
[[package]]
name = "syn"
version = "1.0.109"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "72b64191b275b66ffe2469e8af2c1cfe3bafa67b529ead792a6d0160888b4237"
dependencies = [
"proc-macro2",
"quote",
"unicode-ident",
]
[[package]]
name = "syn"
version = "2.0.18"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "32d41677bcbe24c20c52e7c70b0d8db04134c5d1066bf98662e2871ad200ea3e"
dependencies = [
"proc-macro2",
"quote",
"unicode-ident",
]
[[package]]
name = "unicode-ident"
version = "1.0.9"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "b15811caf2415fb889178633e7724bad2509101cde276048e013b9def5e51fa0"
[[package]] [[package]]
name = "version_check" name = "version_check"
version = "0.9.4" version = "0.9.4"

View file

@ -1,2 +1,2 @@
[workspace] [workspace]
members = ["hbvm", "compiler"] members = ["hbasm", "hbbytecode", "hbvm"]

View file

@ -1,28 +0,0 @@
# Math operations
```
MATH_OP
Add
Sub
Mul
Div
Mod
```
```
MATH_TYPE
Unsigned
Signed
FloatingPoint
```
```
MATH_OP_SIDES
Register Constant
Register Register
Constant Constant
Constant Register
```
`[MATH_OP] [MATH_OP_SIDES] [MATH_TYPE] [IMM_LHS] [IMM_RHS] [REG]`

View file

@ -1,8 +0,0 @@
[package]
name = "compiler"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]

View file

@ -1,5 +0,0 @@
fn main() {
let prog = "load 1, A0
jump 0";
println!("Hello, world!");
}

14
hbasm/Cargo.toml Normal file
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@ -0,0 +1,14 @@
[package]
name = "hbasm"
version = "0.1.0"
edition = "2021"
[dependencies]
hbbytecode = { path = "../hbbytecode" }
lasso = "0.7"
paste = "1.0"
[dependencies.logos]
version = "0.13"
default-features = false
features = ["export_derive"]

269
hbasm/src/lib.rs Normal file
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@ -0,0 +1,269 @@
use std::collections::HashMap;
use {
lasso::{Rodeo, Spur},
logos::{Lexer, Logos, Span},
std::fmt::{Display, Formatter},
};
macro_rules! tokendef {
($($opcode:literal),* $(,)?) => {
paste::paste! {
#[derive(Clone, Copy, Debug, PartialEq, Eq, Logos)]
#[logos(extras = Rodeo)]
#[logos(skip r"[ \t\f]+")]
#[logos(skip r"-- .*")]
pub enum Token {
$(#[token($opcode, |_| hbbytecode::opcode::[<$opcode:upper>])])*
OpCode(u8),
#[regex("[0-9]+", |l| l.slice().parse().ok())]
#[regex(
"-[0-9]+",
|lexer| {
Some(u64::from_ne_bytes(lexer.slice().parse::<i64>().ok()?.to_ne_bytes()))
},
)] Integer(u64),
#[regex(
"r[0-9]+",
|lexer| match lexer.slice()[1..].parse() {
Ok(n) => Some(n),
_ => None
},
)] Register(u8),
#[regex(
r"\p{XID_Start}\p{XID_Continue}*:",
|lexer| lexer.extras.get_or_intern(&lexer.slice()[..lexer.slice().len() - 1]),
)] Label(Spur),
#[regex(
r"\p{XID_Start}\p{XID_Continue}*",
|lexer| lexer.extras.get_or_intern(lexer.slice()),
)] Symbol(Spur),
#[token("\n")]
#[token(";")] ISep,
#[token(",")] PSep,
}
}
};
}
#[rustfmt::skip]
tokendef![
"nop", "add", "sub", "mul", "and", "or", "xor", "sl", "sr", "srs", "cmp", "cmpu",
"dir", "neg", "not", "addi", "muli", "andi", "ori", "xori", "sli", "sri", "srsi",
"cmpi", "cmpui", "cp", "swa", "li", "ld", "st", "bmc", "brc", "jmp", "jeq", "jne",
"jlt", "jgt", "jltu", "jgtu", "ecall", "addf", "mulf", "dirf", "addfi", "mulfi",
];
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
pub enum ErrorKind {
UnexpectedToken,
InvalidToken,
UnexpectedEnd,
InvalidSymbol,
}
#[derive(Clone, Debug, PartialEq, Eq)]
pub struct Error {
pub kind: ErrorKind,
pub span: Span,
}
impl Display for Error {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
write!(f, "Error {:?} at {:?}", self.kind, self.span)
}
}
impl std::error::Error for Error {}
macro_rules! expect_matches {
($self:expr, $($pat:pat),* $(,)?) => {$(
let $pat = $self.next()?
else { return Err(ErrorKind::UnexpectedToken) };
)*}
}
pub fn assembly(code: &str, buf: &mut Vec<u8>) -> Result<(), Error> {
struct Assembler<'a> {
lexer: Lexer<'a, Token>,
buf: &'a mut Vec<u8>,
label_map: HashMap<Spur, u64>,
to_sub_label: HashMap<usize, Spur>,
}
impl<'a> Assembler<'a> {
fn next(&mut self) -> Result<Token, ErrorKind> {
match self.lexer.next() {
Some(Ok(t)) => Ok(t),
Some(Err(())) => Err(ErrorKind::InvalidToken),
None => Err(ErrorKind::UnexpectedEnd),
}
}
fn assemble(&mut self) -> Result<(), ErrorKind> {
use hbbytecode::opcode::*;
loop {
match self.lexer.next() {
Some(Ok(Token::OpCode(op))) => {
self.buf.push(op);
match op {
NOP | ECALL => Ok(()),
DIR | DIRF => {
expect_matches!(
self,
Token::Register(r0),
Token::PSep,
Token::Register(r1),
Token::PSep,
Token::Register(r2),
Token::PSep,
Token::Register(r3),
);
self.buf.extend([r0, r1, r2, r3]);
Ok(())
}
ADD..=CMPU | ADDF..=MULF => {
expect_matches!(
self,
Token::Register(r0),
Token::PSep,
Token::Register(r1),
Token::PSep,
Token::Register(r2),
);
self.buf.extend([r0, r1, r2]);
Ok(())
}
BRC => {
expect_matches!(
self,
Token::Register(r0),
Token::PSep,
Token::Register(r1),
Token::PSep,
Token::Integer(count),
);
self.buf.extend([
r0,
r1,
u8::try_from(count).map_err(|_| ErrorKind::UnexpectedToken)?,
]);
Ok(())
}
NEG..=NOT | CP..=SWA => {
expect_matches!(
self,
Token::Register(r0),
Token::PSep,
Token::Register(r1),
);
self.buf.extend([r0, r1]);
Ok(())
}
LI | JMP => {
expect_matches!(self, Token::Register(r0), Token::PSep);
self.buf.push(r0);
self.insert_imm()?;
Ok(())
}
ADDI..=CMPUI | BMC | JEQ..=JGTU | ADDFI..=MULFI => {
expect_matches!(
self,
Token::Register(r0),
Token::PSep,
Token::Register(r1),
Token::PSep,
);
self.buf.extend([r0, r1]);
self.insert_imm()?;
Ok(())
}
LD..=ST => {
expect_matches!(
self,
Token::Register(r0),
Token::PSep,
Token::Register(r1),
Token::PSep,
Token::Integer(offset),
Token::PSep,
Token::Integer(len),
);
self.buf.extend([r0, r1]);
self.buf.extend(offset.to_le_bytes());
self.buf.extend(
u16::try_from(len)
.map_err(|_| ErrorKind::InvalidToken)?
.to_le_bytes(),
);
Ok(())
}
_ => unreachable!(),
}?;
match self.next() {
Ok(Token::ISep) => (),
Ok(_) => return Err(ErrorKind::UnexpectedToken),
Err(ErrorKind::UnexpectedEnd) => return Ok(()),
Err(e) => return Err(e),
}
}
Some(Ok(Token::Label(lbl))) => {
self.label_map.insert(lbl, self.buf.len() as u64);
}
Some(Ok(Token::ISep)) => (),
Some(Ok(_)) => return Err(ErrorKind::UnexpectedToken),
Some(Err(())) => return Err(ErrorKind::InvalidToken),
None => return Ok(()),
}
}
}
fn link_local_syms(&mut self) -> Result<(), ErrorKind> {
for (ix, sym) in &self.to_sub_label {
self.label_map
.get(sym)
.ok_or(ErrorKind::InvalidSymbol)?
.to_le_bytes()
.iter()
.enumerate()
.for_each(|(i, b)| {
self.buf[ix + i] = *b;
});
}
Ok(())
}
fn insert_imm(&mut self) -> Result<(), ErrorKind> {
let imm = match self.next()? {
Token::Integer(i) => i.to_le_bytes(),
Token::Symbol(s) => {
self.to_sub_label.insert(self.buf.len(), s);
[0; 8]
}
_ => return Err(ErrorKind::UnexpectedToken),
};
self.buf.extend(imm);
Ok(())
}
}
let mut asm = Assembler {
lexer: Token::lexer(code),
label_map: Default::default(),
to_sub_label: Default::default(),
buf,
};
asm.assemble().map_err(|kind| Error {
kind,
span: asm.lexer.span(),
})?;
asm.link_local_syms()
.map_err(|kind| Error { kind, span: 0..0 })
}

21
hbasm/src/main.rs Normal file
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@ -0,0 +1,21 @@
use std::{
error::Error,
io::{stdin, stdout, Read, Write},
};
fn main() -> Result<(), Box<dyn Error>> {
let mut code = String::new();
stdin().read_to_string(&mut code)?;
let mut buf = vec![];
if let Err(e) = hbasm::assembly(&code, &mut buf) {
eprintln!(
"Error {:?} at {:?} (`{}`)",
e.kind,
e.span.clone(),
&code[e.span],
);
}
stdout().write_all(&buf)?;
Ok(())
}

6
hbbytecode/Cargo.toml Normal file
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@ -0,0 +1,6 @@
[package]
name = "hbbytecode"
version = "0.1.0"
edition = "2021"
[dependencies]

60
hbbytecode/hbbytecode.h Normal file
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@ -0,0 +1,60 @@
/* HoleyBytes Bytecode representation in C
* Requires C23 compiler or better
*/
#pragma once
#include <assert.h>
#include <stdint.h>
typedef enum hbbc_Opcode: uint8_t {
hbbc_Op_NOP, hbbc_Op_ADD, hbbc_Op_MUL, hbbc_Op_AND, hbbc_Op_OR, hbbc_Op_XOR, hbbc_Op_SL,
hbbc_Op_SR, hbbc_Op_SRS, hbbc_Op_CMP, hbbc_Op_CMPU, hbbc_Op_DIR, hbbc_Op_NEG, hbbc_Op_NOT,
hbbc_Op_ADDI, hbbc_Op_MULI, hbbc_Op_ANDI, hbbc_Op_ORI, hbbc_Op_XORI, hbbc_Op_SLI, hbbc_Op_SRI,
hbbc_Op_SRSI, hbbc_Op_CMPI, hbbc_Op_CMPUI, hbbc_Op_CP, hbbc_Op_SWA, hbbc_Op_LI, hbbc_Op_LD,
hbbc_Op_ST, hbbc_Op_BMC, hbbc_Op_BRC, hbbc_Op_JMP, hbbc_Op_JEQ, hbbc_Op_JNE, hbbc_Op_JLT,
hbbc_Op_JGT, hbbc_Op_JLTU, hbbc_Op_JGTU, hbbc_Op_ECALL, hbbc_Op_ADDF, hbbc_Op_MULF,
hbbc_Op_DIRF, hbbc_Op_ADDFI, hbbc_Op_MULFI,
} hbbc_Opcode;
static_assert(sizeof(hbbc_Opcode) == 1);
#pragma pack(push, 1)
typedef struct hbbc_ParamBBBB
{ uint8_t _0; uint8_t _1; uint8_t _2; uint8_t _3; }
hbbc_ParamBBBB;
static_assert(sizeof(hbbc_ParamBBBB) == 4);
typedef struct hbbc_ParamBBB
{ uint8_t _0; uint8_t _1; uint8_t _2; }
hbbc_ParamBBB;
static_assert(sizeof(hbbc_ParamBBB) == 3);
typedef struct hbbc_ParamBBDH
{ uint8_t _0; uint8_t _1; uint64_t _2; uint16_t _3; }
hbbc_ParamBBDH;
static_assert(sizeof(hbbc_ParamBBDH) == 12);
typedef struct hbbc_ParamBBDB
{ uint8_t _0; uint8_t _1; uint64_t _2; uint8_t _3; }
hbbc_ParamBBDB;
static_assert(sizeof(hbbc_ParamBBDB) == 11);
typedef struct hbbc_ParamBBD
{ uint8_t _0; uint8_t _1; uint64_t _2; }
hbbc_ParamBBD;
static_assert(sizeof(hbbc_ParamBBD) == 10);
typedef struct hbbc_ParamBB
{ uint8_t _0; uint8_t _1; }
hbbc_ParamBB;
static_assert(sizeof(hbbc_ParamBB) == 2);
typedef struct hbbc_ParamBD
{ uint8_t _0; uint64_t _1; }
hbbc_ParamBD;
static_assert(sizeof(hbbc_ParamBD) == 9);
typedef uint64_t hbbc_ParamD;
static_assert(sizeof(hbbc_ParamD) == 8);
#pragma pack(pop)

106
hbbytecode/src/lib.rs Normal file
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@ -0,0 +1,106 @@
#![no_std]
macro_rules! constmod {
($vis:vis $mname:ident($repr:ty) {
$(#![doc = $mdoc:literal])?
$($cname:ident = $val:expr $(,$doc:literal)?;)*
}) => {
$(#[doc = $mdoc])?
$vis mod $mname {
$(
$(#[doc = $doc])?
pub const $cname: $repr = $val;
)*
}
};
}
constmod!(pub opcode(u8) {
//! Opcode constant module
NOP = 0, "N; Do nothing";
ADD = 1, "BBB; #0 ← #1 + #2";
SUB = 2, "BBB; #0 ← #1 - #2";
MUL = 3, "BBB; #0 ← #1 × #2";
AND = 4, "BBB; #0 ← #1 & #2";
OR = 5, "BBB; #0 ← #1 | #2";
XOR = 6, "BBB; #0 ← #1 ^ #2";
SL = 7, "BBB; #0 ← #1 « #2";
SR = 8, "BBB; #0 ← #1 » #2";
SRS = 9, "BBB; #0 ← #1 » #2 (signed)";
CMP = 10, "BBB; #0 ← #1 <=> #2";
CMPU = 11, "BBB; #0 ← #1 <=> #2 (unsigned)";
DIR = 12, "BBBB; #0 ← #2 / #3, #1 ← #2 % #3";
NEG = 13, "BB; #0 ← ~#1";
NOT = 14, "BB; #0 ← !#1";
ADDI = 15, "BBD; #0 ← #1 + imm #2";
MULI = 16, "BBD; #0 ← #1 × imm #2";
ANDI = 17, "BBD; #0 ← #1 & imm #2";
ORI = 18, "BBD; #0 ← #1 | imm #2";
XORI = 19, "BBD; #0 ← #1 ^ imm #2";
SLI = 20, "BBD; #0 ← #1 « imm #2";
SRI = 21, "BBD; #0 ← #1 » imm #2";
SRSI = 22, "BBD; #0 ← #1 » imm #2 (signed)";
CMPI = 23, "BBD; #0 ← #1 <=> imm #2";
CMPUI = 24, "BBD; #0 ← #1 <=> imm #2 (unsigned)";
CP = 25, "BB; Copy #0 ← #1";
SWA = 26, "BB; Swap #0 and #1";
LI = 27, "BD; #0 ← imm #1";
LD = 28, "BBDB; #0 ← [#1 + imm #3], imm #4 bytes, overflowing";
ST = 29, "BBDB; [#1 + imm #3] ← #0, imm #4 bytes, overflowing";
BMC = 30, "BBD; [#0] ← [#1], imm #2 bytes";
BRC = 31, "BBB; #0 ← #1, imm #2 registers";
JMP = 32, "BD; Unconditional jump [#0 + imm #1]";
JEQ = 33, "BBD; if #0 = #1 → jump imm #2";
JNE = 34, "BBD; if #0 ≠ #1 → jump imm #2";
JLT = 35, "BBD; if #0 < #1 → jump imm #2";
JGT = 36, "BBD; if #0 > #1 → jump imm #2";
JLTU = 37, "BBD; if #0 < #1 → jump imm #2 (unsigned)";
JGTU = 38, "BBD; if #0 > #1 → jump imm #2 (unsigned)";
ECALL = 39, "N; Issue system call";
ADDF = 40, "BBB; #0 ← #1 +. #2";
MULF = 41, "BBB; #0 ← #1 +. #2";
DIRF = 42, "BBBB; #0 ← #2 / #3, #1 ← #2 % #3";
ADDFI = 43, "BBD; #0 ← #1 +. imm #2";
MULFI = 44, "BBD; #0 ← #1 *. imm #2";
});
#[repr(packed)]
pub struct ParamBBBB(pub u8, pub u8, pub u8, pub u8);
#[repr(packed)]
pub struct ParamBBB(pub u8, pub u8, pub u8);
#[repr(packed)]
pub struct ParamBBDH(pub u8, pub u8, pub u64, pub u16);
#[repr(packed)]
pub struct ParamBBDB(pub u8, pub u8, pub u64, pub u8);
#[repr(packed)]
pub struct ParamBBD(pub u8, pub u8, pub u64);
#[repr(packed)]
pub struct ParamBB(pub u8, pub u8);
#[repr(packed)]
pub struct ParamBD(pub u8, pub u64);
/// # Safety
/// Has to be valid to be decoded from bytecode.
pub unsafe trait OpParam {}
unsafe impl OpParam for ParamBBBB {}
unsafe impl OpParam for ParamBBB {}
unsafe impl OpParam for ParamBBDB {}
unsafe impl OpParam for ParamBBDH {}
unsafe impl OpParam for ParamBBD {}
unsafe impl OpParam for ParamBB {}
unsafe impl OpParam for ParamBD {}
unsafe impl OpParam for u64 {}
unsafe impl OpParam for () {}

View file

@ -3,6 +3,13 @@ name = "hbvm"
version = "0.1.0" version = "0.1.0"
edition = "2021" edition = "2021"
[profile.release]
lto = true
[dependencies] [dependencies]
log = "*" delegate = "0.9"
hashbrown = "0.13.2" hashbrown = "0.13"
hbbytecode.path = "../hbbytecode"
log = "0.4"
paste = "1.0"
static_assertions = "1.0"

View file

@ -1,2 +0,0 @@
pub mod ops;
pub mod types;

View file

@ -1,68 +0,0 @@
#[repr(u8)]
pub enum Operations {
NOP = 0,
ADD = 1,
SUB = 2,
MUL = 3,
DIV = 4,
MOD = 5,
AND = 6,
OR = 7,
XOR = 8,
NOT = 9,
// LOADs a memory address/constant into a register
LOAD = 15,
// STOREs a register/constant into a memory address
STORE = 16,
MapPage = 17,
UnmapPage = 18,
// SHIFT LEFT 16 A0
Shift = 20,
JUMP = 100,
JumpCond = 101,
RET = 103,
EnviromentCall = 255,
}
pub enum PageMapTypes {
// Have the host make a new VMPage
VMPage = 0,
// Ask the host to map a RealPage into memory
RealPage = 1,
}
pub enum MathOpSubTypes {
Unsigned = 0,
Signed = 1,
FloatingPoint = 2,
}
pub enum MathOpSides {
RegisterConstant = 0,
RegisterRegister = 1,
ConstantConstant = 2,
ConstantRegister = 3,
}
pub enum RWSubTypes {
AddrToReg = 0,
RegToAddr,
ConstToReg,
ConstToAddr,
}
pub enum JumpConditionals {
Equal = 0,
NotEqual = 1,
LessThan = 2,
LessThanOrEqualTo = 3,
GreaterThan = 4,
GreaterThanOrEqualTo = 5,
}

View file

@ -1,9 +0,0 @@
pub const CONST_U8: u8 = 0x00;
pub const CONST_I8: i8 = 0x01;
pub const CONST_U64: u8 = 0x02;
pub const CONST_I64: u8 = 0x03;
pub const CONST_F64: u8 = 0x04;
pub const ADDRESS: u8 = 0x05;

View file

@ -1,6 +0,0 @@
use alloc::vec::Vec;
pub type CallStack = Vec<FnCall>;
pub struct FnCall {
pub ret: usize,
}

View file

@ -1,13 +0,0 @@
pub struct EngineConfig {
pub call_stack_depth: usize,
pub quantum: u32,
}
impl EngineConfig {
pub fn default() -> Self {
Self {
call_stack_depth: 32,
quantum: 0,
}
}
}

View file

@ -1,3 +0,0 @@
use super::Engine;
pub type EnviromentCall = fn(&mut Engine) -> Result<&mut Engine, u64>;

View file

@ -1,102 +0,0 @@
use log::info;
pub mod call_stack;
pub mod config;
pub mod enviroment_calls;
pub mod regs;
#[cfg(test)]
pub mod tests;
use {
self::call_stack::CallStack,
crate::{engine::enviroment_calls::EnviromentCall, memory, HaltStatus, RuntimeErrors},
alloc::vec::Vec,
config::EngineConfig,
log::trace,
regs::Registers,
};
// pub const PAGE_SIZE: usize = 8192;
pub struct RealPage {
pub ptr: *mut u8,
}
#[derive(Debug, Clone, Copy)]
pub struct VMPage {
pub data: [u8; 8192],
}
impl Default for VMPage {
fn default() -> Self {
Self {
data: [0; 4096 * 2],
}
}
}
pub enum Page {
VMPage(VMPage),
RealPage(RealPage),
}
impl Page {
pub fn data(&self) -> [u8; 4096 * 2] {
match self {
Page::VMPage(vmpage) => vmpage.data,
Page::RealPage(_) => {
unimplemented!("Memmapped hw page not yet supported")
}
}
}
}
pub fn empty_enviroment_call(engine: &mut Engine) -> Result<&mut Engine, u64> {
trace!("Registers {:?}", engine.registers);
Err(0)
}
pub struct Engine {
pub pc: usize,
pub program: Vec<u8>,
pub registers: Registers,
pub config: EngineConfig,
/// BUG: This DOES NOT account for overflowing
pub last_timer_count: u32,
pub timer_callback: Option<fn() -> u32>,
pub memory: memory::Memory,
pub enviroment_call_table: [Option<EnviromentCall>; 256],
pub call_stack: CallStack,
}
impl Engine {
pub fn set_timer_callback(&mut self, func: fn() -> u32) {
self.timer_callback = Some(func);
}
}
impl Engine {
pub fn new(program: Vec<u8>) -> Self {
let mut mem = memory::Memory::new();
for (addr, byte) in program.clone().into_iter().enumerate() {
let _ = mem.set_addr8(addr as u64, byte);
}
trace!("{:?}", mem.read_addr8(0));
let ecall_table: [Option<EnviromentCall>; 256] = [None; 256];
Self {
pc: 0,
program,
registers: Registers::default(),
config: EngineConfig::default(),
last_timer_count: 0,
timer_callback: None,
enviroment_call_table: ecall_table,
memory: mem,
call_stack: Vec::new(),
}
}
pub fn dump(&self) {}
pub fn run(&mut self) -> Result<HaltStatus, RuntimeErrors> {
Ok(HaltStatus::Running)
}
}

View file

@ -1,66 +0,0 @@
use core::{
fmt::Debug,
ops::{Index, IndexMut},
};
#[derive(Debug, Clone, Copy)]
pub struct Registers([Value; 60]);
impl Index<u8> for Registers {
type Output = Value;
#[inline]
fn index(&self, index: u8) -> &Self::Output {
&self.0[index as usize]
}
}
impl IndexMut<u8> for Registers {
#[inline]
fn index_mut(&mut self, index: u8) -> &mut Self::Output {
&mut self.0[index as usize]
}
}
impl Default for Registers {
fn default() -> Self {
Self([Value { i: 0 }; 60])
}
}
/// # Safety
/// The macro invoker shall make sure that byte reinterpret-cast
/// won't cause undefined behaviour.
macro_rules! value_def {
($($fname:ident : $fty:ident, $getter:ident);* $(;)?) => {
#[derive(Clone, Copy)]
pub union Value {
$($fname: $fty),*
}
impl Value {$(
#[inline]
pub fn $getter(&self) -> $fty {
unsafe { self.$fname }
}
)*}
$(impl From<$fty> for Value {
#[inline]
fn from($fname: $fty) -> Self {
Self { $fname }
}
})*
}
}
value_def! {
i: u64, int;
f: f64, float;
}
impl Debug for Value {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
self.int().fmt(f)
}
}

View file

@ -1,125 +0,0 @@
use {
super::Engine,
crate::{HaltStatus, RuntimeErrors},
alloc::vec,
RuntimeErrors::*,
};
#[test]
fn invalid_program() {
let prog = vec![1, 0];
let mut eng = Engine::new(prog);
let ret = eng.run();
assert_eq!(ret, Err(InvalidOpcodePair(1, 0)));
}
#[test]
fn empty_program() {
let prog = vec![];
let mut eng = Engine::new(prog);
let ret = eng.run();
assert_eq!(ret, Ok(HaltStatus::Halted));
}
#[test]
fn max_quantum_reached() {
let prog = vec![0, 0, 0, 0];
let mut eng = Engine::new(prog);
eng.set_timer_callback(|| {
return 1;
});
eng.config.quantum = 1;
let ret = eng.run();
assert_eq!(ret, Ok(HaltStatus::Running));
}
#[test]
fn jump_out_of_bounds() {
use crate::bytecode::ops::Operations::JUMP;
let prog = vec![JUMP as u8, 0, 0, 0, 0, 0, 0, 1, 0];
let mut eng = Engine::new(prog);
let ret = eng.run();
assert_eq!(ret, Err(InvalidJumpAddress(256)));
}
#[test]
fn invalid_system_call() {
let prog = vec![255, 0];
let mut eng = Engine::new(prog);
let ret = eng.run();
assert_eq!(ret, Err(InvalidSystemCall(0)));
}
#[test]
fn add_u8() {
use crate::bytecode::ops::{MathOpSides::ConstantConstant, Operations::ADD};
let prog = vec![ADD as u8, ConstantConstant as u8, 100, 98, 0xA0];
let mut eng = Engine::new(prog);
let _ = eng.run();
assert_eq!(eng.registers.a0, 2);
}
#[test]
fn sub_u8() {
use crate::bytecode::ops::Operations::SUB;
let prog = vec![SUB as u8];
let mut eng = Engine::new(prog);
let _ = eng.run();
assert_eq!(eng.registers.a0, 1);
}
#[test]
fn mul_u8() {
use crate::bytecode::ops::{MathOpSides::ConstantConstant, Operations::MUL};
let prog = vec![MUL as u8, ConstantConstant as u8, 1, 2, 0xA0];
let mut eng = Engine::new(prog);
let _ = eng.run();
assert_eq!(eng.registers.a0, 2);
}
#[test]
fn div_u8() {
use crate::bytecode::ops::Operations::DIV;
let prog = vec![DIV as u8];
let mut eng = Engine::new(prog);
let _ = eng.run();
assert_eq!(eng.registers.a0, 2);
}
#[test]
fn set_register() {
let prog = alloc::vec![];
let mut eng = Engine::new(prog);
eng.set_register(0xA0, 1);
assert_eq!(eng.registers.a0, 1);
}
#[test]
fn load_u8() {
use crate::bytecode::ops::{Operations::LOAD, RWSubTypes::AddrToReg};
let prog = vec![LOAD as u8, AddrToReg as u8, 0, 0, 0, 0, 0, 0, 1, 0, 0xA0];
let mut eng = Engine::new(prog);
let ret = eng.memory.set_addr8(256, 1);
assert_eq!(ret, Ok(()));
let _ = eng.run();
assert_eq!(eng.registers.a0, 1);
}
#[test]
fn set_memory_8() {
let prog = vec![];
let mut eng = Engine::new(prog);
let ret = eng.memory.set_addr8(256, 1);
assert_eq!(ret, Ok(()));
}
#[test]
fn set_memory_64() {
let prog = vec![];
let mut eng = Engine::new(prog);
let ret = eng.memory.set_addr64(256, 1);
assert_eq!(ret, Ok(()));
}

View file

@ -1,9 +1,8 @@
#![no_std] #![no_std]
extern crate alloc; extern crate alloc;
pub mod bytecode; pub mod validate;
pub mod engine; pub mod vm;
pub mod memory;
#[derive(Debug, PartialEq)] #[derive(Debug, PartialEq)]
pub enum RuntimeErrors { pub enum RuntimeErrors {

View file

@ -1,32 +1,26 @@
use hbvm::{ use {
bytecode::ops::{Operations::*}, hbvm::{validate::validate, vm::Vm},
engine::Engine, std::io::{stdin, Read},
RuntimeErrors, HaltStatus,
}; };
fn main() -> Result<(), RuntimeErrors> { fn main() -> Result<(), Box<dyn std::error::Error>> {
// TODO: Grab program from cmdline let mut prog = vec![];
#[rustfmt::skip] stdin().read_to_end(&mut prog)?;
let prog: Vec<u8> = vec![
NOP as u8,
JUMP as u8, 0, 0, 0, 0, 0, 0, 0, 0,
];
let mut eng = Engine::new(prog);
// eng.set_timer_callback(time);
eng.enviroment_call_table[10] = Some(print_fn);
while eng.run()? != HaltStatus::Halted {}
eng.dump();
println!("{:#?}", eng.registers);
if let Err(e) = validate(&prog) {
eprintln!("Program validation error: {e:?}");
return Ok(());
} else {
unsafe {
let mut vm = Vm::new_unchecked(&prog);
vm.memory.insert_test_page();
println!("Program interrupt: {:?}", vm.run());
println!("{:?}", vm.registers);
}
}
Ok(()) Ok(())
} }
pub fn time() -> u32 { pub fn time() -> u32 {
9 9
} }
pub fn print_fn(engine: &mut Engine) -> Result<&mut Engine, u64> {
println!("hello");
Ok(engine)
}

View file

@ -1,70 +0,0 @@
use crate::engine::VMPage;
use {
crate::{engine::Page, RuntimeErrors},
alloc::vec::Vec,
hashbrown::HashMap,
log::trace,
};
pub struct Memory {
inner: HashMap<u64, Page>,
}
impl Memory {
pub fn new() -> Self {
Self {
inner: HashMap::new(),
}
//
}
pub fn map_vec(&mut self, address: u64, vec: Vec<u8>) {
panic!("Mapping vectors into pages is not supported yet");
}
}
impl Memory {
pub fn read_addr8(&mut self, address: u64) -> Result<u8, RuntimeErrors> {
let (page, offset) = addr_to_page(address);
trace!("page {} offset {}", page, offset);
match self.inner.get(&page) {
Some(page) => {
let val = page.data()[offset as usize];
trace!("Value {}", val);
Ok(val)
}
None => {
trace!("page not mapped");
Err(RuntimeErrors::PageNotMapped(page))
}
}
}
pub fn read_addr64(&mut self, address: u64) -> u64 {
unimplemented!()
}
pub fn set_addr8(&mut self, address: u64, value: u8) -> Result<(), RuntimeErrors> {
let (page, offset) = addr_to_page(address);
let ret: Option<(&u64, &mut Page)> = self.inner.get_key_value_mut(&page);
match ret {
Some((_, page)) => {
page.data()[offset as usize] = value;
}
None => {
let mut pg = VMPage::default();
pg.data[offset as usize] = value;
self.inner.insert(page, Page::VMPage(pg));
trace!("Mapped page {}", page);
}
}
Ok(())
}
pub fn set_addr64(&mut self, address: u64, value: u64) -> Result<(), RuntimeErrors> {
unimplemented!()
}
}
fn addr_to_page(addr: u64) -> (u64, u64) {
(addr / 8192, addr % 8192)
}

52
hbvm/src/validate.rs Normal file
View file

@ -0,0 +1,52 @@
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub enum ErrorKind {
InvalidInstruction,
Unimplemented,
RegisterArrayOverflow,
}
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct Error {
pub kind: ErrorKind,
pub index: usize,
}
pub fn validate(mut program: &[u8]) -> Result<(), Error> {
use hbbytecode::opcode::*;
let start = program;
loop {
program = match program {
[] => return Ok(()),
[LD..=ST, reg, _, _, _, _, _, _, _, _, _, count, ..]
if usize::from(*reg) * 8 + usize::from(*count) > 2048 =>
{
return Err(Error {
kind: ErrorKind::RegisterArrayOverflow,
index: (program.as_ptr() as usize) - (start.as_ptr() as usize),
})
}
[BRC, src, dst, count, ..]
if src.checked_add(*count).is_none() || dst.checked_add(*count).is_none() =>
{
return Err(Error {
kind: ErrorKind::RegisterArrayOverflow,
index: (program.as_ptr() as usize) - (start.as_ptr() as usize),
})
}
[NOP | ECALL, rest @ ..]
| [DIR | DIRF, _, _, _, _, rest @ ..]
| [ADD..=CMPU | BRC | ADDF..=MULF, _, _, _, rest @ ..]
| [NEG..=NOT | CP..=SWA, _, _, rest @ ..]
| [LI | JMP, _, _, _, _, _, _, _, _, _, rest @ ..]
| [ADDI..=CMPUI | BMC | JEQ..=JGTU | ADDFI..=MULFI, _, _, _, _, _, _, _, _, _, _, rest @ ..]
| [LD..=ST, _, _, _, _, _, _, _, _, _, _, _, _, rest @ ..] => rest,
_ => {
return Err(Error {
kind: ErrorKind::InvalidInstruction,
index: (program.as_ptr() as usize) - (start.as_ptr() as usize),
})
}
}
}
}

215
hbvm/src/vm/mem/mod.rs Normal file
View file

@ -0,0 +1,215 @@
mod paging;
use self::paging::{PageTable, Permission, PtEntry};
use alloc::boxed::Box;
#[derive(Clone, Debug)]
pub struct Memory {
root_pt: *mut PageTable,
}
impl Default for Memory {
fn default() -> Self {
Self {
root_pt: Box::into_raw(Box::default()),
}
}
}
impl Drop for Memory {
fn drop(&mut self) {
let _ = unsafe { Box::from_raw(self.root_pt) };
}
}
impl Memory {
// HACK: Just for allocation testing, will be removed when proper memory interfaces
// implemented.
pub fn insert_test_page(&mut self) {
unsafe {
let mut entry = PtEntry::new(
{
let layout = alloc::alloc::Layout::from_size_align_unchecked(4096, 4096);
let ptr = alloc::alloc::alloc_zeroed(layout);
if ptr.is_null() {
alloc::alloc::handle_alloc_error(layout);
}
core::ptr::write_bytes(ptr, 69, 10);
ptr.cast()
},
Permission::Write,
);
for _ in 0..4 {
let mut pt = Box::<PageTable>::default();
pt[0] = entry;
entry = PtEntry::new(Box::into_raw(pt) as _, Permission::Node);
}
self.root_pt_mut()[0] = entry;
}
}
/// Load value from an address
pub unsafe fn load(&self, addr: u64, target: *mut u8, count: usize) -> Result<(), ()> {
self.memory_access(
addr,
target,
count,
|perm| {
matches!(
perm,
Permission::Readonly | Permission::Write | Permission::Exec
)
},
|src, dst, count| core::ptr::copy_nonoverlapping(src, dst, count),
)
}
/// Store value to an address
pub unsafe fn store(&mut self, addr: u64, source: *const u8, count: usize) -> Result<(), ()> {
self.memory_access(
addr,
source.cast_mut(),
count,
|perm| perm == Permission::Write,
|dst, src, count| core::ptr::copy_nonoverlapping(src, dst, count),
)
}
/// Copy a block of memory
pub unsafe fn block_copy(&mut self, src: u64, dst: u64, count: u64) -> Result<(), ()> {
let count = usize::try_from(count).expect("?conradluget a better CPU");
let mut srcs = PageSplitter::new(src, count, self.root_pt);
let mut dsts = PageSplitter::new(dst, count, self.root_pt);
let mut c_src = srcs.next().ok_or(())?;
let mut c_dst = dsts.next().ok_or(())?;
loop {
let min_size = c_src.size.min(c_dst.size);
unsafe {
core::ptr::copy(c_src.ptr, c_dst.ptr, min_size);
}
match (
match c_src.size.saturating_sub(min_size) {
0 => srcs.next(),
size => Some(PageSplitResult { size, ..c_src }),
},
match c_dst.size.saturating_sub(min_size) {
0 => dsts.next(),
size => Some(PageSplitResult { size, ..c_dst }),
},
) {
(None, None) => return Ok(()),
(Some(src), Some(dst)) => (c_src, c_dst) = (src, dst),
_ => return Err(()),
}
}
}
#[inline]
pub fn root_pt(&self) -> &PageTable {
unsafe { &*self.root_pt }
}
#[inline]
pub fn root_pt_mut(&mut self) -> &mut PageTable {
unsafe { &mut *self.root_pt }
}
fn memory_access(
&self,
src: u64,
mut dst: *mut u8,
len: usize,
permission_check: impl Fn(Permission) -> bool,
action: impl Fn(*mut u8, *mut u8, usize),
) -> Result<(), ()> {
for PageSplitResult { ptr, size, perm } in PageSplitter::new(src, len, self.root_pt) {
if !permission_check(perm) {
return Err(());
}
action(ptr, dst, size);
dst = unsafe { dst.add(size) };
}
Ok(())
}
}
struct PageSplitResult {
ptr: *mut u8,
size: usize,
perm: Permission,
}
struct PageSplitter {
addr: u64,
size: usize,
pagetable: *const PageTable,
}
impl PageSplitter {
pub const fn new(addr: u64, size: usize, pagetable: *const PageTable) -> Self {
Self {
addr,
size,
pagetable,
}
}
}
impl Iterator for PageSplitter {
type Item = PageSplitResult;
fn next(&mut self) -> Option<Self::Item> {
if self.size == 0 {
return None;
}
let (base, perm, size, offset) = 'a: {
let mut current_pt = self.pagetable;
for lvl in (0..5).rev() {
unsafe {
let entry = (*current_pt).get_unchecked(
usize::try_from((self.addr >> (lvl * 9 + 12)) & ((1 << 9) - 1))
.expect("?conradluget a better CPU"),
);
let ptr = entry.ptr();
match entry.permission() {
Permission::Empty => return None,
Permission::Node => current_pt = ptr as _,
perm => {
break 'a (
ptr as *mut u8,
perm,
match lvl {
0 => 4096,
1 => 1024_usize.pow(2) * 2,
2 => 1024_usize.pow(3),
_ => return None,
},
self.addr as usize & ((1 << (lvl * 9 + 12)) - 1),
)
}
}
}
}
return None;
};
let avail = (size - offset).clamp(0, self.size);
self.addr += size as u64;
self.size = self.size.saturating_sub(size);
Some(PageSplitResult {
ptr: unsafe { base.add(offset) },
size: avail,
perm,
})
}
}

101
hbvm/src/vm/mem/paging.rs Normal file
View file

@ -0,0 +1,101 @@
use core::{
fmt::Debug,
mem::MaybeUninit,
ops::{Index, IndexMut},
slice::SliceIndex,
};
use delegate::delegate;
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq)]
#[repr(u8)]
pub enum Permission {
#[default]
Empty,
Node,
Readonly,
Write,
Exec,
}
#[derive(Clone, Copy, Default, PartialEq, Eq)]
pub struct PtEntry(u64);
impl PtEntry {
#[inline]
pub unsafe fn new(ptr: *mut PtPointedData, permission: Permission) -> Self {
Self(ptr as u64 | permission as u64)
}
#[inline]
pub fn permission(&self) -> Permission {
unsafe { core::mem::transmute(self.0 as u8 & 0b111) }
}
#[inline]
pub fn ptr(&self) -> *mut PtPointedData {
(self.0 & !((1 << 12) - 1)) as _
}
}
impl Debug for PtEntry {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
f.debug_struct("PtEntry")
.field("ptr", &self.ptr())
.field("permission", &self.permission())
.finish()
}
}
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
#[repr(align(4096))]
pub struct PageTable([PtEntry; 512]);
impl PageTable {
delegate!(to self.0 {
pub unsafe fn get<I>(&self, ix: I) -> Option<&I::Output>
where I: SliceIndex<[PtEntry]>;
pub unsafe fn get_mut<I>(&mut self, ix: I) -> Option<&mut I::Output>
where I: SliceIndex<[PtEntry]>;
pub unsafe fn get_unchecked<I>(&self, index: I) -> &I::Output
where I: SliceIndex<[PtEntry]>;
pub unsafe fn get_unchecked_mut<I>(&mut self, index: I) -> &mut I::Output
where I: SliceIndex<[PtEntry]>;
});
}
impl<Idx> Index<Idx> for PageTable
where
Idx: SliceIndex<[PtEntry]>,
{
type Output = Idx::Output;
#[inline(always)]
fn index(&self, index: Idx) -> &Self::Output {
&self.0[index]
}
}
impl<Idx> IndexMut<Idx> for PageTable
where
Idx: SliceIndex<[PtEntry]>,
{
#[inline(always)]
fn index_mut(&mut self, index: Idx) -> &mut Self::Output {
&mut self.0[index]
}
}
impl Default for PageTable {
fn default() -> Self {
Self(unsafe { MaybeUninit::zeroed().assume_init() })
}
}
#[derive(Clone, Copy)]
#[repr(C, align(4096))]
pub union PtPointedData {
pub pt: PageTable,
pub page: u8,
}

308
hbvm/src/vm/mod.rs Normal file
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@ -0,0 +1,308 @@
//! HoleyBytes Virtual Machine
//!
//! All unsafe code here should be sound, if input bytecode passes validation.
// # General safety notice:
// - Validation has to assure there is 256 registers (r0 - r255)
// - Instructions have to be valid as specified (values and sizes)
// - Mapped pages should be at least 4 KiB
// - Yes, I am aware of the UB when jumping in-mid of instruction where
// the read byte corresponds to an instruction whose lenght exceets the
// program size. If you are (rightfully) worried about the UB, for now just
// append your program with 11 zeroes.
mod mem;
mod value;
use {
crate::validate,
core::ops,
hbbytecode::{OpParam, ParamBB, ParamBBB, ParamBBBB, ParamBBD, ParamBBDH, ParamBD},
mem::Memory,
static_assertions::assert_impl_one,
value::Value,
};
macro_rules! param {
($self:expr, $ty:ty) => {{
assert_impl_one!($ty: OpParam);
let data = $self
.program
.as_ptr()
.add($self.pc + 1)
.cast::<$ty>()
.read();
$self.pc += 1 + core::mem::size_of::<$ty>();
data
}};
}
macro_rules! binary_op {
($self:expr, $ty:ident, $handler:expr) => {{
let ParamBBB(tg, a0, a1) = param!($self, ParamBBB);
$self.write_reg(
tg,
$handler(
Value::$ty(&$self.read_reg(a0)),
Value::$ty(&$self.read_reg(a1)),
)
.into(),
);
}};
}
macro_rules! binary_op_imm {
($self:expr, $ty:ident, $handler:expr) => {{
let ParamBBD(tg, a0, imm) = param!($self, ParamBBD);
$self.write_reg(
tg,
$handler(Value::$ty(&$self.read_reg(a0)), Value::$ty(&imm.into())).into(),
);
}};
}
macro_rules! cond_jump {
($self:expr, $ty:ident, $expected:ident) => {{
let ParamBBD(a0, a1, jt) = param!($self, ParamBBD);
if core::cmp::Ord::cmp(&$self.read_reg(a0).as_u64(), &$self.read_reg(a1).as_u64())
== core::cmp::Ordering::$expected
{
$self.pc = jt as usize;
}
}};
}
pub struct Vm<'a> {
pub registers: [Value; 256],
pub memory: Memory,
pc: usize,
program: &'a [u8],
}
impl<'a> Vm<'a> {
/// # Safety
/// Program code has to be validated
pub unsafe fn new_unchecked(program: &'a [u8]) -> Self {
Self {
registers: [Value::from(0_u64); 256],
memory: Default::default(),
pc: 0,
program,
}
}
pub fn new_validated(program: &'a [u8]) -> Result<Self, validate::Error> {
validate::validate(program)?;
Ok(unsafe { Self::new_unchecked(program) })
}
pub fn run(&mut self) -> HaltReason {
use hbbytecode::opcode::*;
loop {
let Some(&opcode) = self.program.get(self.pc)
else { return HaltReason::ProgramEnd };
unsafe {
match opcode {
NOP => param!(self, ()),
ADD => binary_op!(self, as_u64, u64::wrapping_add),
SUB => binary_op!(self, as_u64, u64::wrapping_sub),
MUL => binary_op!(self, as_u64, u64::wrapping_mul),
AND => binary_op!(self, as_u64, ops::BitAnd::bitand),
OR => binary_op!(self, as_u64, ops::BitOr::bitor),
XOR => binary_op!(self, as_u64, ops::BitXor::bitxor),
SL => binary_op!(self, as_u64, ops::Shl::shl),
SR => binary_op!(self, as_u64, ops::Shr::shr),
SRS => binary_op!(self, as_i64, ops::Shr::shr),
CMP => {
let ParamBBB(tg, a0, a1) = param!(self, ParamBBB);
self.write_reg(
tg,
(self.read_reg(a0).as_i64().cmp(&self.read_reg(a1).as_i64()) as i64)
.into(),
);
}
CMPU => {
let ParamBBB(tg, a0, a1) = param!(self, ParamBBB);
self.write_reg(
tg,
(self.read_reg(a0).as_u64().cmp(&self.read_reg(a1).as_u64()) as i64)
.into(),
);
}
NOT => {
let param = param!(self, ParamBB);
self.write_reg(param.0, (!self.read_reg(param.1).as_u64()).into());
}
NEG => {
let param = param!(self, ParamBB);
self.write_reg(
param.0,
match self.read_reg(param.1).as_u64() {
0 => 1_u64,
_ => 0,
}
.into(),
);
}
DIR => {
let ParamBBBB(dt, rt, a0, a1) = param!(self, ParamBBBB);
let a0 = self.read_reg(a0).as_u64();
let a1 = self.read_reg(a1).as_u64();
self.write_reg(dt, (a0.checked_div(a1).unwrap_or(u64::MAX)).into());
self.write_reg(rt, (a0.checked_rem(a1).unwrap_or(u64::MAX)).into());
}
ADDI => binary_op_imm!(self, as_u64, ops::Add::add),
MULI => binary_op_imm!(self, as_u64, ops::Mul::mul),
ANDI => binary_op_imm!(self, as_u64, ops::BitAnd::bitand),
ORI => binary_op_imm!(self, as_u64, ops::BitOr::bitor),
XORI => binary_op_imm!(self, as_u64, ops::BitXor::bitxor),
SLI => binary_op_imm!(self, as_u64, ops::Shl::shl),
SRI => binary_op_imm!(self, as_u64, ops::Shr::shr),
SRSI => binary_op_imm!(self, as_i64, ops::Shr::shr),
CMPI => {
let ParamBBD(tg, a0, imm) = param!(self, ParamBBD);
self.write_reg(
tg,
(self.read_reg(a0).as_i64().cmp(&Value::from(imm).as_i64()) as i64)
.into(),
);
}
CMPUI => {
let ParamBBD(tg, a0, imm) = param!(self, ParamBBD);
self.write_reg(tg, (self.read_reg(a0).as_u64().cmp(&imm) as i64).into());
}
CP => {
let param = param!(self, ParamBB);
self.write_reg(param.0, self.read_reg(param.1));
}
SWA => {
let ParamBB(src, dst) = param!(self, ParamBB);
if src + dst != 0 {
core::ptr::swap(
self.registers.get_unchecked_mut(usize::from(src)),
self.registers.get_unchecked_mut(usize::from(dst)),
);
}
}
LI => {
let param = param!(self, ParamBD);
self.write_reg(param.0, param.1.into());
}
LD => {
let ParamBBDH(dst, base, off, count) = param!(self, ParamBBDH);
let n: usize = match dst {
0 => 1,
_ => 0,
};
if self
.memory
.load(
self.read_reg(base).as_u64() + off + n as u64,
self.registers.as_mut_ptr().add(usize::from(dst) + n).cast(),
usize::from(count).saturating_sub(n),
)
.is_err()
{
return HaltReason::LoadAccessEx;
}
}
ST => {
let ParamBBDH(dst, base, off, count) = param!(self, ParamBBDH);
if self
.memory
.store(
self.read_reg(base).as_u64() + off,
self.registers.as_ptr().add(usize::from(dst)).cast(),
count.into(),
)
.is_err()
{
return HaltReason::LoadAccessEx;
}
}
BMC => {
let ParamBBD(src, dst, count) = param!(self, ParamBBD);
if self
.memory
.block_copy(
self.read_reg(src).as_u64(),
self.read_reg(dst).as_u64(),
count,
)
.is_err()
{
return HaltReason::LoadAccessEx;
}
}
BRC => {
let ParamBBB(src, dst, count) = param!(self, ParamBBB);
core::ptr::copy(
self.registers.get_unchecked(usize::from(src)),
self.registers.get_unchecked_mut(usize::from(dst)),
usize::from(count * 8),
);
}
JMP => {
let ParamBD(reg, offset) = param!(self, ParamBD);
self.pc = (self.read_reg(reg).as_u64() + offset) as usize;
}
JEQ => cond_jump!(self, int, Equal),
JNE => {
let ParamBBD(a0, a1, jt) = param!(self, ParamBBD);
if self.read_reg(a0).as_u64() != self.read_reg(a1).as_u64() {
self.pc = jt as usize;
}
}
JLT => cond_jump!(self, int, Less),
JGT => cond_jump!(self, int, Greater),
JLTU => cond_jump!(self, sint, Less),
JGTU => cond_jump!(self, sint, Greater),
ECALL => {
param!(self, ());
return HaltReason::Ecall;
}
ADDF => binary_op!(self, as_f64, ops::Add::add),
MULF => binary_op!(self, as_f64, ops::Mul::mul),
DIRF => {
let ParamBBBB(dt, rt, a0, a1) = param!(self, ParamBBBB);
let a0 = self.read_reg(a0).as_f64();
let a1 = self.read_reg(a1).as_f64();
self.write_reg(dt, (a0 / a1).into());
self.write_reg(rt, (a0 % a1).into());
}
ADDFI => binary_op_imm!(self, as_f64, ops::Add::add),
MULFI => binary_op_imm!(self, as_f64, ops::Mul::mul),
_ => return HaltReason::InvalidOpcode,
}
}
}
}
#[inline]
unsafe fn read_reg(&self, n: u8) -> Value {
if n == 0 {
0_u64.into()
} else {
*self.registers.get_unchecked(n as usize)
}
}
#[inline]
unsafe fn write_reg(&mut self, n: u8, value: Value) {
if n != 0 {
*self.registers.get_unchecked_mut(n as usize) = value;
}
}
}
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
#[repr(u8)]
pub enum HaltReason {
ProgramEnd,
Ecall,
InvalidOpcode,
LoadAccessEx,
StoreAccessEx,
}

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use core::fmt::Debug;
macro_rules! value_def {
($($ty:ident),* $(,)?) => {
#[derive(Copy, Clone)]
#[repr(packed)]
pub union Value {
$(pub $ty: $ty),*
}
paste::paste! {
impl Value {$(
#[inline]
pub fn [<as_ $ty>](&self) -> $ty {
unsafe { self.$ty }
}
)*}
}
$(
impl From<$ty> for Value {
#[inline]
fn from(value: $ty) -> Self {
Self { $ty: value }
}
}
)*
};
}
value_def!(u64, i64, f64);
impl Debug for Value {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
self.as_u64().fmt(f)
}
}

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nightly

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# HoleyBytes ISA Specification
# Bytecode format
- All numbers are encoded little-endian
- There is 256 registers, they are represented by a byte
- Immediate values are 64 bit
### Instruction encoding
- Instruction parameters are packed (no alignment)
- [opcode, …parameters…]
### Instruction parameter types
- B = Byte
- D = Doubleword (64 bits)
- H = Halfword (16 bits)
| Name | Size |
|:----:|:--------|
| BBBB | 32 bits |
| BBB | 24 bits |
| BBDH | 96 bits |
| BBDB | 88 bits |
| BBD | 80 bits |
| BB | 16 bits |
| BD | 72 bits |
| D | 64 bits |
| N | 0 bits |
# Instructions
- `#n`: register in parameter *n*
- `imm #n`: for immediate in parameter *n*
- `P ← V`: Set register P to value V
- `[x]`: Address x
## No-op
- N type
| Opcode | Name | Action |
|:------:|:----:|:----------:|
| 0 | NOP | Do nothing |
## Integer binary ops.
- BBB type
- `#0 ← #1 <op> #2`
| Opcode | Name | Action |
|:------:|:----:|:-----------------------:|
| 1 | ADD | Wrapping addition |
| 2 | SUB | Wrapping subtraction |
| 3 | MUL | Wrapping multiplication |
| 4 | AND | Bitand |
| 5 | OR | Bitor |
| 6 | XOR | Bitxor |
| 7 | SL | Unsigned left bitshift |
| 8 | SR | Unsigned right bitshift |
| 9 | SRS | Signed right bitshift |
### Comparsion
| Opcode | Name | Action |
|:------:|:----:|:-------------------:|
| 10 | CMP | Signed comparsion |
| 11 | CMPU | Unsigned comparsion |
#### Comparsion table
| #1 *op* #2 | Result |
|:----------:|:------:|
| < | -1 |
| = | 0 |
| > | 1 |
### Division-remainder
- Type BBBB
- In case of `#3` is zero, the resulting value is all-ones
- `#0 ← #2 ÷ #3`
- `#1 ← #2 % #3`
| Opcode | Name | Action |
|:------:|:----:|:-------------------------------:|
| 12 | DIR | Divide and remainder combinated |
### Negations
- Type BB
- `#0 ← #1 <op> #2`
| Opcode | Name | Action |
|:------:|:----:|:----------------:|
| 13 | NEG | Bit negation |
| 14 | NOT | Logical negation |
## Integer immediate binary ops.
- Type BBD
- `#0 ← #1 <op> imm #2`
| Opcode | Name | Action |
|:------:|:----:|:-----------------------:|
| 15 | ADDI | Wrapping addition |
| 16 | MULI | Wrapping subtraction |
| 17 | ANDI | Bitand |
| 18 | ORI | Bitor |
| 19 | XORI | Bitxor |
| 20 | SLI | Unsigned left bitshift |
| 21 | SRI | Unsigned right bitshift |
| 22 | SRSI | Signed right bitshift |
### Comparsion
- Comparsion is the same as when RRR type
| Opcode | Name | Action |
|:------:|:-----:|:-------------------:|
| 23 | CMPI | Signed comparsion |
| 24 | CMPUI | Unsigned comparsion |
## Register value set / copy
### Copy
- Type BB
- `#0 ← #1`
| Opcode | Name | Action |
|:------:|:----:|:------:|
| 25 | CP | Copy |
### Swap
- Type BB
- Swap #0 and #1
| Opcode | Name | Action |
|:------:|:----:|:------:|
| 26 | SWA | Swap |
### Load immediate
- Type BD
- `#0 ← #1`
| Opcode | Name | Action |
|:------:|:----:|:--------------:|
| 27 | LI | Load immediate |
## Memory operations
- Type BBDH
- If loaded/store value exceeds one register size, continue accessing following registers
### Load / Store
| Opcode | Name | Action |
|:------:|:----:|:---------------------------------------:|
| 28 | LD | `#0 ← [#1 + imm #3], copy imm #4 bytes` |
| 29 | ST | `[#1 + imm #3] ← #0, copy imm #4 bytes` |
## Block copy
- Block copy source and target can overlap
### Memory copy
- Type BBD
| Opcode | Name | Action |
|:------:|:----:|:--------------------------------:|
| 30 | BMC | `[#0] ← [#1], copy imm #2 bytes` |
### Register copy
- Type BBB
- Copy a block a register to another location (again, overflowing to following registers)
| Opcode | Name | Action |
|:------:|:----:|:--------------------------------:|
| 31 | BRC | `#0 ← #1, copy imm #2 registers` |
## Control flow
### Unconditional jump
- Type BD
| Opcode | Name | Action |
|:------:|:----:|:---------------------:|
| 32 | JMP | Jump at `#0 + imm #1` |
### Conditional jumps
- Type BBD
- Jump at `imm #2` if `#0 <op> #1`
| Opcode | Name | Comparsion |
|:------:|:----:|:------------:|
| 33 | JEQ | = |
| 34 | JNE | ≠ |
| 35 | JLT | < (signed) |
| 36 | JGT | > (signed) |
| 37 | JLTU | < (unsigned) |
| 38 | JGTU | > (unsigned) |
### Environment call
- Type N
| Opcode | Name | Action |
|:------:|:-----:|:-------------------------------------:|
| 39 | ECALL | Cause an trap to the host environment |
## Floating point operations
- Type BBB
- `#0 ← #1 <op> #2`
| Opcode | Name | Action |
|:------:|:----:|:--------------:|
| 40 | ADDF | Addition |
| 41 | MULF | Multiplication |
### Division-remainder
- Type BBBB
| Opcode | Name | Action |
|:------:|:----:|:--------------------------------------:|
| 42 | DIRF | Same flow applies as for integer `DIR` |
## Floating point immediate operations
- Type BBD
- `#0 ← #1 <op> imm #2`
| Opcode | Name | Action |
|:------:|:-----:|:--------------:|
| 43 | ADDFI | Addition |
| 44 | MULFI | Multiplication |
# Registers
- There is 255 registers + one zero register (with index 0)
- Reading from zero register yields zero
- Writing to zero register is a no-op
# Memory
- Addresses are 64 bit
- Memory implementation is arbitrary
- In case of accessing invalid address:
- Program shall trap (LoadAccessEx, StoreAccessEx) with parameter of accessed address
- Value of register when trapped is undefined
## Recommendations
- Leave address `0x0` as invalid
- If paging used:
- Leave first page invalid
- Pages should be at least 4 KiB
# Program execution
- The way of program execution is implementation defined
- The order of instruction is arbitrary, as long all observable
effects are applied in the program's order
# Program validation
- Invalid program should cause runtime error:
- The form of error is arbitrary. Can be a trap or an interpreter-specified error
- It shall not be handleable from within the program
- Executing invalid opcode should trap
- Program can be validaded either before execution or when executing
# Traps
Program should at least implement these traps:
- Environment call
- Invalid instruction exception
- Load address exception
- Store address exception
and executing environment should be able to get information about them,
like the opcode of invalid instruction or attempted address to load/store.
Details about these are left as an implementation detail.
# Assembly
HoleyBytes assembly format is not defined, this is just a weak description
of `hbasm` syntax.
- Opcode names correspond to specified opcode names, lowercase (`nop`)
- Parameters are separated by comma (`addi r0, r0, 1`)
- Instructions are separated by either line feed or semicolon
- Registers are represented by `r` followed by the number (`r10`)
- Labels are defined by label name followed with colon (`loop:`)
- Labels are references simply by their name (`print`)
- Immediates are entered plainly. Negative numbers supported.