asdasdasdasdasdasdasdasd

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Erin 2023-06-09 21:58:59 +02:00 committed by ondra05
parent 36f4d31fb2
commit f832f6a04a
5 changed files with 98 additions and 63 deletions

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@ -1,83 +1,99 @@
#![no_std]
macro_rules! constmod {
($vis:vis $mname:ident($repr:ty) { $($cname:ident = $val:expr),* $(,)? }) => {
($vis:vis $mname:ident($repr:ty) {
$(#![doc = $mdoc:literal])?
$($cname:ident = $val:expr $(,$doc:literal)?;)*
}) => {
$(#[doc = $mdoc])?
$vis mod $mname {
$(pub const $cname: $repr = $val;)*
$(
$(#[doc = $doc])?
pub const $cname: $repr = $val;
)*
}
};
}
constmod!(pub opcode(u8) {
NOP = 0, // N; Do nothing
//! Opcode constant module
ADD = 1, // RRR; #0 ← #1 + #2
SUB = 2, // RRR; #0 ← #1 - #2
MUL = 3, // RRR; #0 ← #1 × #2
DIV = 4, // RRR; #0 ← #1 ÷ #2
REM = 5, // RRR; #0 ← #1 % #2
AND = 6, // RRR; #0 ← #1 & #2
OR = 7, // RRR; #0 ← #1 | #2
XOR = 8, // RRR; #0 ← #1 ^ #2
SL = 9, // RRR; #0 ← #1 « #2
SR = 10, // RRR; #0 ← #1 » #2
SRS = 11, // RRR; #0 ← #1 » #2 (signed)
CMP = 12, // RRR; #0 ← #1 <=> #2
CMPU = 13, // RRR; #0 ← #1 <=> #2 (unsigned)
NOT = 14, // RR; #0 ← !#1
NOP = 0, "N; Do nothing";
ADDF = 15, // RRR; #0 ← #1 +. #2
SUBF = 16, // RRR; #0 ← #1 +. #2
MULF = 17, // RRR; #0 ← #1 +. #2
DIVF = 18, // RRR; #0 ← #1 +. #2
ADDI = 19, // RRI; #0 ← #1 + imm #2
MULI = 20, // RRI; #0 ← #1 × imm #2
REMI = 21, // RRI; #0 ← #1 % imm #2
ANDI = 22, // RRI; #0 ← #1 & imm #2
ORI = 23, // RRI; #0 ← #1 | imm #2
XORI = 24, // RRI; #0 ← #1 ^ imm #2
SLI = 25, // RRI; #0 ← #1 « imm #2
SRI = 26, // RRI; #0 ← #1 » imm #2
SRSI = 27, // RRI; #0 ← #1 » imm #2 (signed)
CMPI = 28, // RRI; #0 ← #1 <=> imm #2
CMPUI = 29, // RRI; #0 ← #1 <=> imm #2 (unsigned)
ADD = 1, "RRR; #0 ← #1 + #2";
SUB = 2, "RRR; #0 ← #1 - #2";
MUL = 3, "RRR; #0 ← #1 × #2";
DIV = 4, "RRR; #0 ← #1 ÷ #2";
REM = 5, "RRR; #0 ← #1 % #2";
AND = 6, "RRR; #0 ← #1 & #2";
OR = 7, "RRR; #0 ← #1 | #2";
XOR = 8, "RRR; #0 ← #1 ^ #2";
SL = 9, "RRR; #0 ← #1 « #2";
SR = 10, "RRR; #0 ← #1 » #2";
SRS = 11, "RRR; #0 ← #1 » #2 (signed)";
CMP = 12, "RRR; #0 ← #1 <=> #2";
CMPU = 13, "RRR; #0 ← #1 <=> #2 (unsigned)";
NOT = 14, "RR; #0 ← !#1";
ADDFI = 30, // RRI; #0 ← #1 +. imm #2
MULFI = 31, // RRI; #0 ← #1 *. imm #2
ADDF = 15, "RRR; #0 ← #1 +. #2";
SUBF = 16, "RRR; #0 ← #1 +. #2";
MULF = 17, "RRR; #0 ← #1 +. #2";
DIVF = 18, "RRR; #0 ← #1 +. #2";
ADDI = 19, "RRI; #0 ← #1 + imm #2";
MULI = 20, "RRI; #0 ← #1 × imm #2";
REMI = 21, "RRI; #0 ← #1 % imm #2";
ANDI = 22, "RRI; #0 ← #1 & imm #2";
ORI = 23, "RRI; #0 ← #1 | imm #2";
XORI = 24, "RRI; #0 ← #1 ^ imm #2";
SLI = 25, "RRI; #0 ← #1 « imm #2";
SRI = 26, "RRI; #0 ← #1 » imm #2";
SRSI = 27, "RRI; #0 ← #1 » imm #2 (signed)";
CMPI = 28, "RRI; #0 ← #1 <=> imm #2";
CMPUI = 29, "RRI; #0 ← #1 <=> imm #2 (unsigned)";
CP = 32, // RR; Copy #0 ← #1
LI = 33, // RI; Load immediate, #0 ← imm #1
LB = 34, // RRI; Load byte (8 bits), #0 ← [#1 + imm #2]
LD = 35, // RRI; Load doublet (16 bits)
LQ = 36, // RRI; Load quadlet (32 bits)
LO = 37, // RRI; Load octlet (64 bits)
SB = 38, // RRI; Store byte, [#1 + imm #2] ← #0
SD = 39, // RRI; Store doublet
SQ = 40, // RRI; Store quadlet
SO = 41, // RRI; Store octlet
ADDFI = 30, "RRI; #0 ← #1 +. imm #2";
MULFI = 31, "RRI; #0 ← #1 *. imm #2";
JMP = 42, // RI; Unconditional jump [#0 + imm #1]
JEQ = 43, // RRI; if #0 = #1 → jump imm #2
JNE = 44, // RRI; if #0 ≠ #1 → jump imm #2
JLT = 45, // RRI; if #0 < #1 → jump imm #2
JGT = 46, // RRI; if #0 > #1 → jump imm #2
JLTU = 47, // RRI; if #0 < #1 → jump imm #2 (unsigned)
JGTU = 48, // RRI; if #0 > #1 → jump imm #2 (unsigned)
RET = 49, // N; Return
ECALL = 50, // N; Issue system call
CP = 32, "RR; Copy #0 ← #1";
LI = 33, "RI; Load immediate, #0 ← imm #1";
LB = 34, "RRI; Load byte (8 bits), #0 ← [#1 + imm #2]";
LD = 35, "RRI; Load doublet (16 bits)";
LQ = 36, "RRI; Load quadlet (32 bits)";
LO = 37, "RRI; Load octlet (64 bits)";
SB = 38, "RRI; Store byte, [#1 + imm #2] ← #0";
SD = 39, "RRI; Store doublet";
SQ = 40, "RRI; Store quadlet";
SO = 41, "RRI; Store octlet";
JMP = 42, "RI; Unconditional jump [#0 + imm #1]";
JEQ = 43, "RRI; if #0 = #1 → jump imm #2";
JNE = 44, "RRI; if #0 ≠ #1 → jump imm #2";
JLT = 45, "RRI; if #0 < #1 → jump imm #2";
JGT = 46, "RRI; if #0 > #1 → jump imm #2";
JLTU = 47, "RRI; if #0 < #1 → jump imm #2 (unsigned)";
JGTU = 48, "RRI; if #0 > #1 → jump imm #2 (unsigned)";
RET = 49, "N; Return";
ECALL = 50, "N; Issue system call";
});
/// Register-register-register instruction parameter
#[repr(packed)]
pub struct ParamRRR(pub u8, pub u8, pub u8);
/// Register-register-immediate intruction parameter
#[repr(packed)]
pub struct ParamRRI(pub u8, pub u8, pub u64);
/// Register-register instruction parameter
#[repr(packed)]
pub struct ParamRR(pub u8, pub u8);
/// Register-immediate instruction parameter
#[repr(packed)]
pub struct ParamRI(pub u8, pub u64);
/// # Safety
/// TODO.
/// Has to be valid to be decoded from bytecode.
pub unsafe trait OpParam {}
unsafe impl OpParam for ParamRRR {}
unsafe impl OpParam for ParamRRI {}

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@ -1,7 +1,7 @@
macro_rules! bail {
($kind:ident, $start:expr, $curr:expr, $offset:expr) => {
return Err(Error {
kind: ErrorKind::$kind,
kind: ErrorKind::$kind,
index: ($curr.as_ptr() as usize) - ($start.as_ptr() as usize) + $offset,
})
};
@ -19,8 +19,8 @@ pub enum ErrorKind {
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct Error {
kind: ErrorKind,
index: usize,
pub kind: ErrorKind,
pub index: usize,
}
pub fn validate(mut program: &[u8]) -> Result<(), Error> {

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@ -27,8 +27,11 @@ impl Memory {
});
}
/// Load value from an address
pub fn load<S: MemAccessSize>(&self, addr: u64) -> Option<Value> {
let (page, offset) = split_addr(addr);
// Check if copy won't get over page boundary (TODO: make it go over)
if offset + S::BYTES <= PAGE_SIZE - 1 {
let mut value = MaybeUninit::<Value>::zeroed();
unsafe {
@ -37,6 +40,9 @@ impl Memory {
value.as_mut_ptr().cast(),
S::BYTES,
);
// Even zeroed [`Value`] if holding valid variants as defined is valid,
// this is always valid.
Some(value.assume_init())
}
} else {
@ -44,8 +50,12 @@ impl Memory {
}
}
/// Store value to an address
pub fn store<S: MemAccessSize>(&mut self, addr: u64, value: Value) -> Result<(), ()> {
let (page, offset) = split_addr(addr);
// Check if copy won't get over page boundary (TODO: make it go over)
if offset + S::BYTES <= PAGE_SIZE - 1 {
unsafe {
core::ptr::copy_nonoverlapping(
@ -65,6 +75,7 @@ impl Memory {
}
}
/// Split address into page number and in-page offset
#[inline]
pub const fn split_addr(addr: u64) -> (u64, usize) {
(addr >> PAGE_SIZE.count_ones(), (addr as usize & PAGE_SIZE))

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@ -1,4 +1,17 @@
//! HoleyBytes Virtual Machine
//!
//! All unsafe code here should be sound, if input bytecode passes validation.
// # General safety notice:
// - Validation has to assure there is 60 registers (r0 - r59)
// - Instructions has to be valid as specified (values and sizes)
// - Mapped pages should be at least 8 KiB
mod mem;
mod value;
use {
crate::validate,
core::ops,
hbbytecode::{OpParam, ParamRI, ParamRR, ParamRRI, ParamRRR},
mem::{ma_size, Memory},
@ -6,11 +19,6 @@ use {
value::Value,
};
use crate::validate;
mod mem;
mod value;
macro_rules! param {
($self:expr, $ty:ty) => {{
assert_impl_one!($ty: OpParam);

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@ -2,7 +2,7 @@ use core::fmt::Debug;
/// # Safety
/// The macro invoker shall make sure that byte reinterpret-cast
/// won't cause undefined behaviour.
/// or zero-init won't cause undefined behaviour.
macro_rules! value_def {
($($fname:ident : $fty:ident, $getter:ident);* $(;)?) => {
#[derive(Clone, Copy)]