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InfernoDeity:master
InfernoDeity:load-program-from-anywhere-on-softpage
InfernoDeity:von-neumann
InfernoDeity:feature/hbasm/even-more-meta
InfernoDeity:feature/trap-handlers
InfernoDeity:wip/its-not-my-fault
AbleOS:trunk
AbleOS:hbcb
AbleOS:soft-float
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compare: InfernoDeity:master
Branches Tags
InfernoDeity:master
InfernoDeity:load-program-from-anywhere-on-softpage
InfernoDeity:von-neumann
InfernoDeity:feature/hbasm/even-more-meta
InfernoDeity:feature/trap-handlers
InfernoDeity:wip/its-not-my-fault
AbleOS:trunk
AbleOS:hbcb
AbleOS:soft-float

18 commits
von-neuman ... master

Author SHA1 Message Date
Erin 65e05c809c Changed CMP handling and added simple JMP 2023-09-15 08:43:12 +02:00
able dcd692405e examples 2023-09-12 01:38:32 -05:00
Erin cad2640a4e ABI proposal part 1 2023-09-08 10:46:41 +02:00
Erin e28f5b7924 a 2023-08-20 00:24:27 +02:00
Erin cb35c86add updated macro 2023-08-19 23:57:48 +02:00
Erin f468a02ad4 bye stuff 2023-08-19 23:46:47 +02:00
Erin 76350b5387 cleaned up deps 2023-08-19 23:24:31 +02:00
Erin 68ac6856df Address type, changed behaviour on address overflow 2023-08-18 02:31:49 +02:00
Erin d4b2a1a266 Move 2023-08-18 01:41:05 +02:00
Erin bd9b4e0364 Softpage improvements 2023-08-18 01:28:02 +02:00
Erin af1de4b9ec nope. 2023-08-17 01:37:53 +02:00
Erin 69bbd0ca79 SPID 2023-08-15 17:21:55 +02:00
Erin 9021acf61c Modified memory interface 
I have no idea what I am doing rn
 2023-08-15 17:05:10 +02:00
Erin a8f2e4fbdf Notice 2023-08-15 16:33:56 +02:00
Erin bcb0ec41e2 Move stuff, deprecate softpage 2023-08-15 16:32:59 +02:00
Erin 7dc8c6cca4 Some merges 2023-08-11 02:19:26 +02:00
Erin 5ac8da923f Added TX instruction (definitely not named after Texas) 2023-08-09 01:24:45 +02:00
Erin e62264950a Changed memory interfacing 2023-08-08 03:14:19 +02:00
28 changed files with 1089 additions and 783 deletions
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111
Cargo.lock generated
View file

@ -15,9 +15,9 @@ dependencies = [
[[package]]
name = "allocator-api2"
version = "0.2.15"
version = "0.2.16"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "56fc6cf8dc8c4158eed8649f9b8b0ea1518eb62b544fe9490d66fa0b349eafe9"
checksum = "0942ffc6dcaadf03badf6e6a2d0228460359d5e34b57ccdc720b7382dfbd5ec5"
[[package]]
name = "ariadne"
@ -47,36 +47,6 @@ version = "1.0.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "baf1de4339761588bc0619e3cbc0120ee582ebb74b53b4efbf79117bd2da40fd"
[[package]]
name = "convert_case"
version = "0.4.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "6245d59a3e82a7fc217c5828a6692dbc6dfb63a0c8c90495621f7b9d79704a0e"
[[package]]
name = "delegate"
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 = "derive_more"
version = "0.99.17"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "4fb810d30a7c1953f91334de7244731fc3f3c10d7fe163338a35b9f640960321"
dependencies = [
"convert_case",
"proc-macro2",
"quote",
"rustc_version",
"syn 1.0.109",
]
[[package]]
name = "fnv"
version = "1.0.7"
@ -124,20 +94,9 @@ version = "0.1.0"
name = "hbvm"
version = "0.1.0"
dependencies = [
"delegate",
"derive_more",
"hbbytecode",
"paste",
"sealed",
"static_assertions",
]
[[package]]
name = "heck"
version = "0.4.1"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "95505c38b4572b2d910cecb0281560f54b440a19336cbbcb27bf6ce6adc6f5a8"
[[package]]
name = "lasso"
version = "0.7.2"
@ -188,7 +147,7 @@ dependencies = [
"proc-macro2",
"quote",
"regex-syntax",
"syn 2.0.25",
"syn",
]
[[package]]
@ -208,24 +167,24 @@ checksum = "dd8b5dd2ae5ed71462c540258bedcb51965123ad7e7ccf4b9a8cafaa4a63576d"
[[package]]
name = "paste"
version = "1.0.13"
version = "1.0.14"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "b4b27ab7be369122c218afc2079489cdcb4b517c0a3fc386ff11e1fedfcc2b35"
checksum = "de3145af08024dea9fa9914f381a17b8fc6034dfb00f3a84013f7ff43f29ed4c"
[[package]]
name = "proc-macro2"
version = "1.0.64"
version = "1.0.66"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "78803b62cbf1f46fde80d7c0e803111524b9877184cfe7c3033659490ac7a7da"
checksum = "18fb31db3f9bddb2ea821cde30a9f70117e3f119938b5ee630b7403aa6e2ead9"
dependencies = [
"unicode-ident",
]
[[package]]
name = "quote"
version = "1.0.29"
version = "1.0.33"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "573015e8ab27661678357f27dc26460738fd2b6c86e46f386fde94cb5d913105"
checksum = "5267fca4496028628a95160fc423a33e8b2e6af8a5302579e322e4b520293cae"
dependencies = [
"proc-macro2",
]
@ -236,55 +195,11 @@ version = "0.6.29"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "f162c6dd7b008981e4d40210aca20b4bd0f9b60ca9271061b07f78537722f2e1"
[[package]]
name = "rustc_version"
version = "0.4.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "bfa0f585226d2e68097d4f95d113b15b83a82e819ab25717ec0590d9584ef366"
dependencies = [
"semver",
]
[[package]]
name = "sealed"
version = "0.5.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "f4a8caec23b7800fb97971a1c6ae365b6239aaeddfb934d6265f8505e795699d"
dependencies = [
"heck",
"proc-macro2",
"quote",
"syn 2.0.25",
]
[[package]]
name = "semver"
version = "1.0.17"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "bebd363326d05ec3e2f532ab7660680f3b02130d780c299bca73469d521bc0ed"
[[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"
version = "2.0.29"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "72b64191b275b66ffe2469e8af2c1cfe3bafa67b529ead792a6d0160888b4237"
dependencies = [
"proc-macro2",
"quote",
"unicode-ident",
]
[[package]]
name = "syn"
version = "2.0.25"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "15e3fc8c0c74267e2df136e5e5fb656a464158aa57624053375eb9c8c6e25ae2"
checksum = "c324c494eba9d92503e6f1ef2e6df781e78f6a7705a0202d9801b198807d518a"
dependencies = [
"proc-macro2",
"quote",
@ -293,9 +208,9 @@ dependencies = [
[[package]]
name = "unicode-ident"
version = "1.0.10"
version = "1.0.11"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "22049a19f4a68748a168c0fc439f9516686aa045927ff767eca0a85101fb6e73"
checksum = "301abaae475aa91687eb82514b328ab47a211a533026cb25fc3e519b86adfc3c"
[[package]]
name = "unicode-width"

3
Cargo.toml
View file

@ -1,2 +1,3 @@
[workspace]
members = ["hbasm", "hbbytecode", "hbvm"]
resolver = "2"
members = ["hbasm", "hbbytecode", "hbvm"]

29
c-abi.md Normal file
View file

@ -0,0 +1,29 @@
# C ABI (proposal)
## C datatypes
| C Type | Description | Size (B) |
|:------------|:-------------------------|-------------:|
| char | Character / byte | 8 |
| short | Short integer | 16 |
| int | Integer | 32 |
| long | Long integer | 64 |
| long long | Long long integer | 64 |
| T* | Pointer | 64 |
| float | Single-precision float | 32 |
| double | Double-precision float | 64 |
| long double | Extended-precision float | **Bikeshed** |
## Registers
| Register | ABI Name | Description | Saver |
|:---------|:---------|:---------------|:-------|
| `r0` | — | Zero register | N/A |
| `r1` | `ra` | Return address | Caller |
| `r2` | `sp` | Stack pointer | Callee |
| `r3` | `tp` | Thread pointer | N/A |
**TODO:** Parameters
**TODO:** Saved
**TODO:** Temp

12
hbasm/assets/add.hbasm Normal file
View file

@ -0,0 +1,12 @@
-- Add two numbers
-- A + B = C
-- r1 A
li r1, 2
-- r2 Result
li r2, 0
-- B = 4
addi r2, r1, 4
-- terminate execution
tx

16
hbasm/assets/celsius_converter.hbasm Normal file
View file

@ -0,0 +1,16 @@
-- r1 will be the temp in fahrenheit
-- r2 temp in celsius
-- r3/r4/r5 will be used by constants
-- (f - 32) * 5 / 9
li r1, 100
li r3, 32
li r4, 5
li r5, 9
sub r2, r1, r3
mul r2, r2, r4
dir r2, r0, r2, r5
tx

23
hbasm/assets/ecall.hbasm
View file

@ -1,11 +1,14 @@
addi r1, r0, 1024
addi r2, r1, 1024
addi r3, r2, 1024
addi r4, r3, 1024
addi r5, r4, 1024
addi r6, r5, 1024
addi r7, r6, 1024
addi r8, r7, 1024
addi r9, r8, 1024
li r255, 0
ecall
ecall
li r255, 1
li r254, 1
li r253, 100
ecall
li r255, 2
li r254, 0
li r253, 0
ecall
tx

3
hbasm/assets/memory.hbasm
View file

@ -1,3 +1,4 @@
li r20, 1010
st r20, r24, 0, 1
addi r24, r0, 10
addi r24, r0, 10
tx

18
hbbytecode/hbbytecode.h
View file

@ -13,15 +13,15 @@
static_assert(CHAR_BIT == 8, "Cursed architectures are not supported");
enum hbbc_Opcode: uint8_t {
hbbc_Op_UN , hbbc_Op_TX , hbbc_Op_NOP , hbbc_Op_ADD , hbbc_Op_SUB , 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_SUBF , hbbc_Op_MULF , hbbc_Op_DIRF , hbbc_Op_FMAF , hbbc_Op_NEGF ,
hbbc_Op_ITF , hbbc_Op_FTI , hbbc_Op_ADDFI , hbbc_Op_MULFI ,
hbbc_Op_UN , hbbc_Op_TX , hbbc_Op_NOP , hbbc_Op_ADD , hbbc_Op_SUB , 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_JAL ,
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_SUBF , hbbc_Op_MULF , hbbc_Op_DIRF , hbbc_Op_FMAF ,
hbbc_Op_NEGF , hbbc_Op_ITF , hbbc_Op_FTI , hbbc_Op_ADDFI , hbbc_Op_MULFI ,
} typedef hbbc_Opcode;
static_assert(sizeof(hbbc_Opcode) == 1);

70
hbbytecode/src/lib.rs
View file

@ -35,12 +35,12 @@ macro_rules! constmod {
/// - I: Immediate
/// - L: Memory load / store size (u16)
/// - Other types are identity-mapped
///
///
/// # BRC special-case
/// BRC's 3rd operand is plain byte, not a register. Encoding is the same, but for some cases it may matter.
///
///
/// Please, if you distinguish in your API between byte and register, special case this one.
///
///
/// Sorry for that :(
#[macro_export]
macro_rules! invoke_with_def {
@ -110,58 +110,54 @@ constmod!(pub opcode(u8) {
BMC = 32, "BBD; [#0] ← [#1], imm #2 bytes";
BRC = 33, "BBB; #0 ← #1, imm #2 registers";
JAL = 34, "BD; Copy PC to #0 and unconditional jump [#1 + imm #2]";
JEQ = 35, "BBD; if #0 = #1 → jump imm #2";
JNE = 36, "BBD; if #0 ≠ #1 → jump imm #2";
JLT = 37, "BBD; if #0 < #1 → jump imm #2";
JGT = 38, "BBD; if #0 > #1 → jump imm #2";
JLTU = 39, "BBD; if #0 < #1 → jump imm #2 (unsigned)";
JGTU = 40, "BBD; if #0 > #1 → jump imm #2 (unsigned)";
ECALL = 41, "N; Issue system call";
JMP = 34, "D; Unconditional, non-linking absolute jump";
JAL = 35, "BD; Copy PC to #0 and unconditional jump [#1 + imm #2]";
JEQ = 36, "BBD; if #0 = #1 → jump imm #2";
JNE = 37, "BBD; if #0 ≠ #1 → jump imm #2";
JLT = 38, "BBD; if #0 < #1 → jump imm #2";
JGT = 39, "BBD; if #0 > #1 → jump imm #2";
JLTU = 40, "BBD; if #0 < #1 → jump imm #2 (unsigned)";
JGTU = 41, "BBD; if #0 > #1 → jump imm #2 (unsigned)";
ECALL = 42, "N; Issue system call";
ADDF = 42, "BBB; #0 ← #1 +. #2";
SUBF = 43, "BBB; #0 ← #1 -. #2";
MULF = 44, "BBB; #0 ← #1 +. #2";
DIRF = 45, "BBBB; #0 ← #2 / #3, #1 ← #2 % #3";
FMAF = 46, "BBBB; #0 ← (#1 * #2) + #3";
NEGF = 47, "BB; #0 ← -#1";
ITF = 48, "BB; #0 ← #1 as float";
FTI = 49, "BB; #0 ← #1 as int";
ADDF = 43, "BBB; #0 ← #1 +. #2";
SUBF = 44, "BBB; #0 ← #1 -. #2";
MULF = 45, "BBB; #0 ← #1 +. #2";
DIRF = 46, "BBBB; #0 ← #2 / #3, #1 ← #2 % #3";
FMAF = 47, "BBBB; #0 ← (#1 * #2) + #3";
NEGF = 48, "BB; #0 ← -#1";
ITF = 49, "BB; #0 ← #1 as float";
FTI = 50, "BB; #0 ← #1 as int";
ADDFI = 50, "BBD; #0 ← #1 +. imm #2";
MULFI = 51, "BBD; #0 ← #1 *. imm #2";
ADDFI = 51, "BBD; #0 ← #1 +. imm #2";
MULFI = 52, "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 ParamBBD(pub u8, pub u8, pub u64);
#[repr(packed)]
pub struct ParamBBW(pub u8, pub u8, pub u32);
#[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 ParamBBDH {}
unsafe impl OpParam for ParamBBD {}
unsafe impl OpParam for ParamBBW {}
unsafe impl OpParam for ParamBB {}
unsafe impl OpParam for ParamBD {}
unsafe impl OpParam for u64 {}
unsafe impl OpParam for () {}
pub unsafe trait ProgramVal {}
unsafe impl ProgramVal for ParamBBBB {}
unsafe impl ProgramVal for ParamBBB {}
unsafe impl ProgramVal for ParamBBDH {}
unsafe impl ProgramVal for ParamBBD {}
unsafe impl ProgramVal for ParamBBW {}
unsafe impl ProgramVal for ParamBB {}
unsafe impl ProgramVal for ParamBD {}
unsafe impl ProgramVal for u64 {}
unsafe impl ProgramVal for u8 {} // Opcode
unsafe impl ProgramVal for () {}

7
hbvm/Cargo.toml
View file

@ -12,9 +12,4 @@ alloc = []
nightly = []
[dependencies]
delegate = "0.9"
derive_more = "0.99"
hbbytecode.path = "../hbbytecode"
paste = "1.0"
sealed = "0.5"
static_assertions = "1.0"
hbbytecode.path = "../hbbytecode"

BIN
hbvm/assets/add.hb Normal file
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hbvm/assets/celsius_converter.hb Normal file
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hbvm/assets/ecall.hb
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24
hbvm/fuzz/fuzz_targets/vm.rs
View file

@ -3,11 +3,14 @@
use {
hbbytecode::valider::validate,
hbvm::{
softpaging::{
paging::{PageTable, Permission},
HandlePageFault, PageSize, SoftPagedMem,
mem::{
softpaging::{
paging::{PageTable, Permission},
HandlePageFault, PageSize, SoftPagedMem,
},
Address, MemoryAccessReason,
},
MemoryAccessReason, Vm,
Vm,
},
libfuzzer_sys::fuzz_target,
};
@ -16,12 +19,13 @@ fuzz_target!(|data: &[u8]| {
if validate(data).is_ok() {
let mut vm = unsafe {
Vm::<_, 16384>::new(
SoftPagedMem {
SoftPagedMem::<_, true> {
pf_handler: TestTrapHandler,
program: data,
root_pt: Box::into_raw(Default::default()),
icache: Default::default(),
},
0,
Address::new(4),
)
};
@ -38,6 +42,8 @@ fuzz_target!(|data: &[u8]| {
for (i, page) in pages.into_iter().enumerate() {
unmap_and_dealloc(&mut vm.memory, page, i as u64 * 4096);
}
let _ = unsafe { Box::from_raw(vm.memory.root_pt) };
}
});
@ -45,14 +51,14 @@ fn alloc_and_map(memory: &mut SoftPagedMem<TestTrapHandler>, at: u64) -> *mut u8
let ptr = Box::into_raw(Box::<Page>::default()).cast();
unsafe {
memory
.map(ptr, at, Permission::Write, PageSize::Size4K)
.map(ptr, Address::new(at), Permission::Write, PageSize::Size4K)
.unwrap()
};
ptr
}
fn unmap_and_dealloc(memory: &mut SoftPagedMem<TestTrapHandler>, ptr: *mut u8, from: u64) {
memory.unmap(from).unwrap();
memory.unmap(Address::new(from)).unwrap();
let _ = unsafe { Box::from_raw(ptr.cast::<Page>()) };
}
@ -70,7 +76,7 @@ impl HandlePageFault for TestTrapHandler {
&mut self,
_: MemoryAccessReason,
_: &mut PageTable,
_: u64,
_: Address,
_: PageSize,
_: *mut u8,
) -> bool {

58
hbvm/src/bmc.rs
View file

@ -1,7 +1,8 @@
//! Block memory copier state machine
use {
super::{Memory, MemoryAccessReason, VmRunError},
super::{mem::MemoryAccessReason, Memory, VmRunError},
crate::mem::Address,
core::{mem::MaybeUninit, task::Poll},
};
@ -15,9 +16,9 @@ struct AlignedBuf([MaybeUninit<u8>; BUF_SIZE]);
/// State for block memory copy
pub struct BlockCopier {
/// Source address
src: u64,
src: Address,
/// Destination address
dst: u64,
dst: Address,
/// How many buffer sizes to copy?
n_buffers: usize,
/// …and what remainds after?
@ -27,7 +28,7 @@ pub struct BlockCopier {
impl BlockCopier {
/// Construct a new one
#[inline]
pub fn new(src: u64, dst: u64, count: usize) -> Self {
pub fn new(src: Address, dst: Address, count: usize) -> Self {
Self {
src,
dst,
@ -57,17 +58,8 @@ impl BlockCopier {
}
// Bump source and destination address
//
// If we are over the address space, bail.
match self.src.checked_add(BUF_SIZE as u64) {
Some(n) => self.src = n,
None => return Poll::Ready(Err(BlkCopyError::OutOfBounds)),
};
match self.dst.checked_add(BUF_SIZE as u64) {
Some(n) => self.dst = n,
None => return Poll::Ready(Err(BlkCopyError::OutOfBounds)),
};
self.src += BUF_SIZE;
self.dst += BUF_SIZE;
self.n_buffers -= 1;
@ -100,15 +92,15 @@ impl BlockCopier {
#[inline]
unsafe fn act(
memory: &mut impl Memory,
src: u64,
dst: u64,
src: Address,
dst: Address,
buf: *mut u8,
count: usize,
) -> Result<(), BlkCopyError> {
// Load to buffer
memory
.load(src, buf, count)
.map_err(|super::LoadError(addr)| BlkCopyError::Access {
.map_err(|super::mem::LoadError(addr)| BlkCopyError {
access_reason: MemoryAccessReason::Load,
addr,
})?;
@ -116,7 +108,7 @@ unsafe fn act(
// Store from buffer
memory
.store(dst, buf, count)
.map_err(|super::StoreError(addr)| BlkCopyError::Access {
.map_err(|super::mem::StoreError(addr)| BlkCopyError {
access_reason: MemoryAccessReason::Store,
addr,
})?;
@ -126,30 +118,18 @@ unsafe fn act(
/// Error occured when copying a block of memory
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub enum BlkCopyError {
/// Memory access error
Access {
/// Kind of access
access_reason: MemoryAccessReason,
/// VM Address
addr: u64,
},
/// Address out of bounds
OutOfBounds,
pub struct BlkCopyError {
/// Kind of access
access_reason: MemoryAccessReason,
/// VM Address
addr: Address,
}
impl From<BlkCopyError> for VmRunError {
fn from(value: BlkCopyError) -> Self {
match value {
BlkCopyError::Access {
access_reason: MemoryAccessReason::Load,
addr,
} => Self::LoadAccessEx(addr),
BlkCopyError::Access {
access_reason: MemoryAccessReason::Store,
addr,
} => Self::StoreAccessEx(addr),
BlkCopyError::OutOfBounds => Self::AddrOutOfBounds,
match value.access_reason {
MemoryAccessReason::Load => Self::LoadAccessEx(value.addr),
MemoryAccessReason::Store => Self::StoreAccessEx(value.addr),
}
}
}

502
hbvm/src/lib.rs
View file

@ -12,23 +12,21 @@
#![no_std]
#![cfg_attr(feature = "nightly", feature(fn_align))]
#![warn(missing_docs, clippy::missing_docs_in_private_items)]
#![warn(missing_docs)]
use mem::{Memory, Address};
#[cfg(feature = "alloc")]
extern crate alloc;
pub mod softpaging;
pub mod mem;
pub mod value;
mod bmc;
mod vmrun;
mod utils;
use {
bmc::BlockCopier,
core::{cmp::Ordering, mem::size_of, ops, slice::SliceIndex},
derive_more::Display,
hbbytecode::{OpParam, ParamBB, ParamBBB, ParamBBBB, ParamBBD, ParamBBDH, ParamBBW, ParamBD},
value::{Value, ValueVariant},
};
use {bmc::BlockCopier, value::Value};
/// HoleyBytes Virtual Machine
pub struct Vm<Mem, const TIMER_QUOTIENT: usize> {
@ -42,7 +40,7 @@ pub struct Vm<Mem, const TIMER_QUOTIENT: usize> {
pub memory: Mem,
/// Program counter
pub pc: usize,
pub pc: Address,
/// Program timer
timer: usize,
@ -59,404 +57,15 @@ where
///
/// # Safety
/// Program code has to be validated
pub unsafe fn new(memory: Mem, entry: u64) -> Self {
pub unsafe fn new(memory: Mem, entry: Address) -> Self {
Self {
registers: [Value::from(0_u64); 256],
memory,
pc: entry as _,
pc: entry,
timer: 0,
copier: None,
}
}
/// Execute program
///
/// Program can return [`VmRunError`] if a trap handling failed
#[cfg_attr(feature = "nightly", repr(align(4096)))]
pub fn run(&mut self) -> Result<VmRunOk, VmRunError> {
use hbbytecode::opcode::*;
loop {
// Big match
//
// Contribution guide:
// - Zero register shall never be overwitten. It's value has to always be 0.
// - Prefer `Self::read_reg` and `Self::write_reg` functions
// - Extract parameters using `param!` macro
// - Prioritise speed over code size
// - Memory is cheap, CPUs not that much
// - Do not heap allocate at any cost
// - Yes, user-provided trap handler may allocate,
// but that is not our »fault«.
// - Unsafe is kinda must, but be sure you have validated everything
// - Your contributions have to pass sanitizers and Miri
// - Strictly follow the spec
// - The spec does not specify how you perform actions, in what order,
// just that the observable effects have to be performed in order and
// correctly.
// - Yes, we assume you run 64 bit CPU. Else ?conradluget a better CPU
// sorry 8 bit fans, HBVM won't run on your Speccy :(
unsafe {
match *self
.memory
.load_prog(self.pc)
.ok_or(VmRunError::ProgramFetchLoadEx(self.pc as _))?
{
UN => {
self.decode::<()>();
return Err(VmRunError::Unreachable);
}
TX => {
self.decode::<()>();
return Ok(VmRunOk::End);
}
NOP => self.decode::<()>(),
ADD => self.binary_op(u64::wrapping_add),
SUB => self.binary_op(u64::wrapping_sub),
MUL => self.binary_op(u64::wrapping_mul),
AND => self.binary_op::<u64>(ops::BitAnd::bitand),
OR => self.binary_op::<u64>(ops::BitOr::bitor),
XOR => self.binary_op::<u64>(ops::BitXor::bitxor),
SL => self.binary_op(|l, r| u64::wrapping_shl(l, r as u32)),
SR => self.binary_op(|l, r| u64::wrapping_shr(l, r as u32)),
SRS => self.binary_op(|l, r| i64::wrapping_shl(l, r as u32)),
CMP => {
// Compare a0 <=> a1
// < → -1
// > → 1
// = → 0
let ParamBBB(tg, a0, a1) = self.decode();
self.write_reg(
tg,
self.read_reg(a0)
.cast::<i64>()
.cmp(&self.read_reg(a1).cast::<i64>())
as i64,
);
}
CMPU => {
// Unsigned comparsion
let ParamBBB(tg, a0, a1) = self.decode();
self.write_reg(
tg,
self.read_reg(a0)
.cast::<u64>()
.cmp(&self.read_reg(a1).cast::<u64>())
as i64,
);
}
NOT => {
// Logical negation
let ParamBB(tg, a0) = self.decode();
self.write_reg(tg, !self.read_reg(a0).cast::<u64>());
}
NEG => {
// Bitwise negation
let ParamBB(tg, a0) = self.decode();
self.write_reg(
tg,
match self.read_reg(a0).cast::<u64>() {
0 => 1_u64,
_ => 0,
},
);
}
DIR => {
// Fused Division-Remainder
let ParamBBBB(dt, rt, a0, a1) = self.decode();
let a0 = self.read_reg(a0).cast::<u64>();
let a1 = self.read_reg(a1).cast::<u64>();
self.write_reg(dt, a0.checked_div(a1).unwrap_or(u64::MAX));
self.write_reg(rt, a0.checked_rem(a1).unwrap_or(u64::MAX));
}
ADDI => self.binary_op_imm(u64::wrapping_add),
MULI => self.binary_op_imm(u64::wrapping_sub),
ANDI => self.binary_op_imm::<u64>(ops::BitAnd::bitand),
ORI => self.binary_op_imm::<u64>(ops::BitOr::bitor),
XORI => self.binary_op_imm::<u64>(ops::BitXor::bitxor),
SLI => self.binary_op_ims(u64::wrapping_shl),
SRI => self.binary_op_ims(u64::wrapping_shr),
SRSI => self.binary_op_ims(i64::wrapping_shr),
CMPI => {
let ParamBBD(tg, a0, imm) = self.decode();
self.write_reg(
tg,
self.read_reg(a0)
.cast::<i64>()
.cmp(&Value::from(imm).cast::<i64>())
as i64,
);
}
CMPUI => {
let ParamBBD(tg, a0, imm) = self.decode();
self.write_reg(tg, self.read_reg(a0).cast::<u64>().cmp(&imm) as i64);
}
CP => {
let ParamBB(tg, a0) = self.decode();
self.write_reg(tg, self.read_reg(a0));
}
SWA => {
// Swap registers
let ParamBB(r0, r1) = self.decode();
match (r0, r1) {
(0, 0) => (),
(dst, 0) | (0, dst) => self.write_reg(dst, 0_u64),
(r0, r1) => {
core::ptr::swap(
self.registers.get_unchecked_mut(usize::from(r0)),
self.registers.get_unchecked_mut(usize::from(r1)),
);
}
}
}
LI => {
let ParamBD(tg, imm) = self.decode();
self.write_reg(tg, imm);
}
LD => {
// Load. If loading more than register size, continue on adjecent registers
let ParamBBDH(dst, base, off, count) = self.decode();
let n: u8 = match dst {
0 => 1,
_ => 0,
};
self.memory.load(
self.ldst_addr_uber(dst, base, off, count, n)?,
self.registers
.as_mut_ptr()
.add(usize::from(dst) + usize::from(n))
.cast(),
usize::from(count).saturating_sub(n.into()),
)?;
}
ST => {
// Store. Same rules apply as to LD
let ParamBBDH(dst, base, off, count) = self.decode();
self.memory.store(
self.ldst_addr_uber(dst, base, off, count, 0)?,
self.registers.as_ptr().add(usize::from(dst)).cast(),
count.into(),
)?;
}
BMC => {
// Block memory copy
match if let Some(copier) = &mut self.copier {
// There is some copier, poll.
copier.poll(&mut self.memory)
} else {
// There is none, make one!
let ParamBBD(src, dst, count) = self.decode();
// So we are still on BMC on next cycle
self.pc -= size_of::<ParamBBD>() + 1;
self.copier = Some(BlockCopier::new(
self.read_reg(src).cast(),
self.read_reg(dst).cast(),
count as _,
));
self.copier
.as_mut()
.unwrap_unchecked() // SAFETY: We just assigned there
.poll(&mut self.memory)
} {
// We are done, shift program counter
core::task::Poll::Ready(Ok(())) => {
self.copier = None;
self.pc += size_of::<ParamBBD>() + 1;
}
// Error, shift program counter (for consistency)
// and yield error
core::task::Poll::Ready(Err(e)) => {
self.pc += size_of::<ParamBBD>() + 1;
return Err(e.into());
}
// Not done yet, proceed to next cycle
core::task::Poll::Pending => (),
}
}
BRC => {
// Block register copy
let ParamBBB(src, dst, count) = self.decode();
if src.checked_add(count).is_none() || dst.checked_add(count).is_none() {
return Err(VmRunError::RegOutOfBounds);
}
core::ptr::copy(
self.registers.get_unchecked(usize::from(src)),
self.registers.get_unchecked_mut(usize::from(dst)),
usize::from(count),
);
}
JAL => {
// Jump and link. Save PC after this instruction to
// specified register and jump to reg + offset.
let ParamBBD(save, reg, offset) = self.decode();
self.write_reg(save, self.pc as u64);
self.pc =
(self.read_reg(reg).cast::<u64>().saturating_add(offset)) as usize;
}
// Conditional jumps, jump only to immediates
JEQ => self.cond_jmp::<u64>(Ordering::Equal),
JNE => {
let ParamBBD(a0, a1, jt) = self.decode();
if self.read_reg(a0).cast::<u64>() != self.read_reg(a1).cast::<u64>() {
self.pc = jt as usize;
}
}
JLT => self.cond_jmp::<u64>(Ordering::Less),
JGT => self.cond_jmp::<u64>(Ordering::Greater),
JLTU => self.cond_jmp::<i64>(Ordering::Less),
JGTU => self.cond_jmp::<i64>(Ordering::Greater),
ECALL => {
self.decode::<()>();
// So we don't get timer interrupt after ECALL
if TIMER_QUOTIENT != 0 {
self.timer = self.timer.wrapping_add(1);
}
return Ok(VmRunOk::Ecall);
}
ADDF => self.binary_op::<f64>(ops::Add::add),
SUBF => self.binary_op::<f64>(ops::Sub::sub),
MULF => self.binary_op::<f64>(ops::Mul::mul),
DIRF => {
let ParamBBBB(dt, rt, a0, a1) = self.decode();
let a0 = self.read_reg(a0).cast::<f64>();
let a1 = self.read_reg(a1).cast::<f64>();
self.write_reg(dt, a0 / a1);
self.write_reg(rt, a0 % a1);
}
FMAF => {
let ParamBBBB(dt, a0, a1, a2) = self.decode();
self.write_reg(
dt,
self.read_reg(a0).cast::<f64>() * self.read_reg(a1).cast::<f64>()
+ self.read_reg(a2).cast::<f64>(),
);
}
NEGF => {
let ParamBB(dt, a0) = self.decode();
self.write_reg(dt, -self.read_reg(a0).cast::<f64>());
}
ITF => {
let ParamBB(dt, a0) = self.decode();
self.write_reg(dt, self.read_reg(a0).cast::<i64>() as f64);
}
FTI => {
let ParamBB(dt, a0) = self.decode();
self.write_reg(dt, self.read_reg(a0).cast::<f64>() as i64);
}
ADDFI => self.binary_op_imm::<f64>(ops::Add::add),
MULFI => self.binary_op_imm::<f64>(ops::Mul::mul),
op => return Err(VmRunError::InvalidOpcode(op)),
}
}
if TIMER_QUOTIENT != 0 {
self.timer = self.timer.wrapping_add(1);
if self.timer % TIMER_QUOTIENT == 0 {
return Ok(VmRunOk::Timer);
}
}
}
}
/// Decode instruction operands
#[inline(always)]
unsafe fn decode<T: OpParam>(&mut self) -> T {
let pc1 = self.pc + 1;
let data = self
.memory
.load_prog_unchecked(pc1..pc1 + size_of::<T>())
.as_ptr()
.cast::<T>()
.read();
self.pc += 1 + size_of::<T>();
data
}
/// Perform binary operating over two registers
#[inline(always)]
unsafe fn binary_op<T: ValueVariant>(&mut self, op: impl Fn(T, T) -> T) {
let ParamBBB(tg, a0, a1) = self.decode();
self.write_reg(
tg,
op(self.read_reg(a0).cast::<T>(), self.read_reg(a1).cast::<T>()),
);
}
/// Perform binary operation over register and immediate
#[inline(always)]
unsafe fn binary_op_imm<T: ValueVariant>(&mut self, op: impl Fn(T, T) -> T) {
let ParamBBD(tg, reg, imm) = self.decode();
self.write_reg(
tg,
op(self.read_reg(reg).cast::<T>(), Value::from(imm).cast::<T>()),
);
}
/// Perform binary operation over register and shift immediate
#[inline(always)]
unsafe fn binary_op_ims<T: ValueVariant>(&mut self, op: impl Fn(T, u32) -> T) {
let ParamBBW(tg, reg, imm) = self.decode();
self.write_reg(tg, op(self.read_reg(reg).cast::<T>(), imm));
}
/// Jump at `#3` if ordering on `#0 <=> #1` is equal to expected
#[inline(always)]
unsafe fn cond_jmp<T: ValueVariant + Ord>(&mut self, expected: Ordering) {
let ParamBBD(a0, a1, ja) = self.decode();
if self
.read_reg(a0)
.cast::<T>()
.cmp(&self.read_reg(a1).cast::<T>())
== expected
{
self.pc = ja as usize;
}
}
/// Read register
#[inline(always)]
unsafe fn read_reg(&self, n: u8) -> Value {
*self.registers.get_unchecked(n as usize)
}
/// Write a register.
/// Writing to register 0 is no-op.
#[inline(always)]
unsafe fn write_reg(&mut self, n: u8, value: impl Into<Value>) {
if n != 0 {
*self.registers.get_unchecked_mut(n as usize) = value.into();
}
}
/// Load / Store Address check-computation überfunction
#[inline(always)]
unsafe fn ldst_addr_uber(
&self,
dst: u8,
base: u8,
offset: u64,
size: u16,
adder: u8,
) -> Result<u64, VmRunError> {
let reg = dst.checked_add(adder).ok_or(VmRunError::RegOutOfBounds)?;
if usize::from(reg) * 8 + usize::from(size) > 2048 {
Err(VmRunError::RegOutOfBounds)
} else {
self.read_reg(base)
.cast::<u64>()
.checked_add(offset)
.and_then(|x| x.checked_add(adder.into()))
.ok_or(VmRunError::AddrOutOfBounds)
}
}
}
/// Virtual machine halt error
@ -467,13 +76,13 @@ pub enum VmRunError {
InvalidOpcode(u8),
/// Unhandled load access exception
LoadAccessEx(u64),
LoadAccessEx(Address),
/// Unhandled instruction load access exception
ProgramFetchLoadEx(u64),
ProgramFetchLoadEx(Address),
/// Unhandled store access exception
StoreAccessEx(u64),
StoreAccessEx(Address),
/// Register out-of-bounds access
RegOutOfBounds,
@ -497,88 +106,3 @@ pub enum VmRunOk {
/// Environment call
Ecall,
}
/// Load-store memory access
pub trait Memory {
/// Load data from memory on address
///
/// # Safety
/// - Shall not overrun the buffer
unsafe fn load(&mut self, addr: u64, target: *mut u8, count: usize) -> Result<(), LoadError>;
/// Store data to memory on address
///
/// # Safety
/// - Shall not overrun the buffer
unsafe fn store(
&mut self,
addr: u64,
source: *const u8,
count: usize,
) -> Result<(), StoreError>;
/// Fetch bytes from program section
///
/// # Why?
/// Even Holey Bytes programs operate with
/// single address space, the actual implementation
/// may be different, so for these reasons there is a
/// separate function.
///
/// Also if your memory implementation differentiates between
/// readable and executable memory, this is the way to distinguish
/// the loads.
///
/// # Notice for implementors
/// This is a hot function. This is called on each opcode fetch
/// and instruction decode. Inlining the implementation is highly
/// recommended!
///
/// If you utilise some more heavy memory implementation, consider
/// performing caching as HBVM does not do that for you.
///
/// Has to return all the requested data. If cannot fetch data of requested
/// length, return [`None`].
fn load_prog<I>(&mut self, index: I) -> Option<&I::Output>
where
I: SliceIndex<[u8]>;
/// Fetch bytes from program section, unchecked.
///
/// # Safety
/// You really have to be sure you get the bytes, got me?
unsafe fn load_prog_unchecked<I>(&mut self, index: I) -> &I::Output
where
I: SliceIndex<[u8]>;
}
/// Unhandled load access trap
#[derive(Clone, Copy, Display, Debug, PartialEq, Eq)]
#[display(fmt = "Load access error at address {_0:#x}")]
pub struct LoadError(pub u64);
/// Unhandled store access trap
#[derive(Clone, Copy, Display, Debug, PartialEq, Eq)]
#[display(fmt = "Store access error at address {_0:#x}")]
pub struct StoreError(pub u64);
/// Reason to access memory
#[derive(Clone, Copy, Display, Debug, PartialEq, Eq)]
pub enum MemoryAccessReason {
/// Memory was accessed for load (read)
Load,
/// Memory was accessed for store (write)
Store,
}
impl From<LoadError> for VmRunError {
fn from(value: LoadError) -> Self {
Self::LoadAccessEx(value.0)
}
}
impl From<StoreError> for VmRunError {
fn from(value: StoreError) -> Self {
Self::StoreAccessEx(value.0)
}
}

24
hbvm/src/main.rs
View file

@ -1,8 +1,13 @@
use hbvm::mem::Address;
use {
hbbytecode::valider::validate,
hbvm::{
softpaging::{paging::PageTable, HandlePageFault, PageSize, SoftPagedMem},
MemoryAccessReason, Vm,
mem::{
softpaging::{paging::PageTable, HandlePageFault, PageSize, SoftPagedMem},
MemoryAccessReason,
},
Vm,
},
std::io::{stdin, Read},
};
@ -17,12 +22,13 @@ fn main() -> Result<(), Box<dyn std::error::Error>> {
} else {
unsafe {
let mut vm = Vm::<_, 0>::new(
SoftPagedMem {
SoftPagedMem::<_, true> {
pf_handler: TestTrapHandler,
program: &prog,
root_pt: Box::into_raw(Default::default()),
icache: Default::default(),
},
4,
Address::new(4),
);
let data = {
let ptr = std::alloc::alloc_zeroed(std::alloc::Layout::from_size_align_unchecked(
@ -37,8 +43,8 @@ fn main() -> Result<(), Box<dyn std::error::Error>> {
vm.memory
.map(
data,
8192,
hbvm::softpaging::paging::Permission::Write,
Address::new(8192),
hbvm::mem::softpaging::paging::Permission::Write,
PageSize::Size4K,
)
.unwrap();
@ -46,12 +52,12 @@ fn main() -> Result<(), Box<dyn std::error::Error>> {
println!("Program interrupt: {:?}", vm.run());
println!("{:?}", vm.registers);
println!("{:?}", core::slice::from_raw_parts(data, 4096));
std::alloc::dealloc(
data,
std::alloc::Layout::from_size_align_unchecked(4096, 4096),
);
vm.memory.unmap(8192).unwrap();
vm.memory.unmap(Address::new(8192)).unwrap();
let _ = Box::from_raw(vm.memory.root_pt);
}
}
Ok(())
@ -68,7 +74,7 @@ impl HandlePageFault for TestTrapHandler {
&mut self,
_: MemoryAccessReason,
_: &mut PageTable,
_: u64,
_: Address,
_: PageSize,
_: *mut u8,
) -> bool {

110
hbvm/src/mem/addr.rs Normal file
View file

@ -0,0 +1,110 @@
//! Virtual(?) memory address
use core::{fmt::Debug, ops};
use crate::utils::impl_display;
/// Memory address
#[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
pub struct Address(u64);
impl Address {
/// A null address
pub const NULL: Self = Self(0);
/// Saturating integer addition. Computes self + rhs, saturating at the numeric bounds instead of overflowing.
#[inline]
pub fn saturating_add<T: AddressOp>(self, rhs: T) -> Self {
Self(self.0.saturating_add(rhs.cast_u64()))
}
/// Saturating integer subtraction. Computes self - rhs, saturating at the numeric bounds instead of overflowing.
#[inline]
pub fn saturating_sub<T: AddressOp>(self, rhs: T) -> Self {
Self(self.0.saturating_sub(rhs.cast_u64()))
}
/// Cast or if smaller, truncate to [`usize`]
pub fn truncate_usize(self) -> usize {
self.0 as _
}
/// Get inner value
#[inline(always)]
pub fn get(self) -> u64 {
self.0
}
/// Construct new address
#[inline(always)]
pub fn new(val: u64) -> Self {
Self(val)
}
/// Do something with inner value
#[inline(always)]
pub fn map(self, f: impl Fn(u64) -> u64) -> Self {
Self(f(self.0))
}
}
impl_display!(for Address =>
|Address(a)| "{a:0x}"
);
impl<T: AddressOp> ops::Add<T> for Address {
type Output = Self;
#[inline]
fn add(self, rhs: T) -> Self::Output {
Self(self.0.wrapping_add(rhs.cast_u64()))
}
}
impl<T: AddressOp> ops::Sub<T> for Address {
type Output = Self;
#[inline]
fn sub(self, rhs: T) -> Self::Output {
Self(self.0.wrapping_sub(rhs.cast_u64()))
}
}
impl<T: AddressOp> ops::AddAssign<T> for Address {
fn add_assign(&mut self, rhs: T) {
self.0 = self.0.wrapping_add(rhs.cast_u64())
}
}
impl<T: AddressOp> ops::SubAssign<T> for Address {
fn sub_assign(&mut self, rhs: T) {
self.0 = self.0.wrapping_sub(rhs.cast_u64())
}
}
impl From<Address> for u64 {
#[inline(always)]
fn from(value: Address) -> Self {
value.0
}
}
impl Debug for Address {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
write!(f, "[{:0x}]", self.0)
}
}
/// Can perform address operations with
pub trait AddressOp {
/// Cast to u64, truncating or extending
fn cast_u64(self) -> u64;
}
macro_rules! impl_address_ops(($($ty:ty),* $(,)?) => {
$(impl AddressOp for $ty {
#[inline(always)]
fn cast_u64(self) -> u64 { self as _ }
})*
});
impl_address_ops!(u8, u16, u32, u64, usize);

86
hbvm/src/mem/mod.rs Normal file
View file

@ -0,0 +1,86 @@
//! Memory implementations
pub mod softpaging;
mod addr;
pub use addr::Address;
use {crate::utils::impl_display, hbbytecode::ProgramVal};
/// Load-store memory access
pub trait Memory {
/// Load data from memory on address
///
/// # Safety
/// - Shall not overrun the buffer
unsafe fn load(
&mut self,
addr: Address,
target: *mut u8,
count: usize,
) -> Result<(), LoadError>;
/// Store data to memory on address
///
/// # Safety
/// - Shall not overrun the buffer
unsafe fn store(
&mut self,
addr: Address,
source: *const u8,
count: usize,
) -> Result<(), StoreError>;
/// Read from program memory to execute
///
/// # Safety
/// - Data read have to be valid
unsafe fn prog_read<T: ProgramVal>(&mut self, addr: Address) -> Option<T>;
/// Read from program memory to exectue
///
/// # Safety
/// - You have to be really sure that these bytes are there, understand?
unsafe fn prog_read_unchecked<T: ProgramVal>(&mut self, addr: Address) -> T;
}
/// Unhandled load access trap
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct LoadError(pub Address);
impl_display!(for LoadError =>
|LoadError(a)| "Load access error at address {a}",
);
/// Unhandled store access trap
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct StoreError(pub Address);
impl_display!(for StoreError =>
|StoreError(a)| "Load access error at address {a}",
);
/// Reason to access memory
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub enum MemoryAccessReason {
/// Memory was accessed for load (read)
Load,
/// Memory was accessed for store (write)
Store,
}
impl_display!(for MemoryAccessReason => match {
Self::Load => const "Load";
Self::Store => const "Store";
});
impl From<LoadError> for crate::VmRunError {
fn from(value: LoadError) -> Self {
Self::LoadAccessEx(value.0)
}
}
impl From<StoreError> for crate::VmRunError {
fn from(value: StoreError) -> Self {
Self::StoreAccessEx(value.0)
}
}

109
hbvm/src/mem/softpaging/icache.rs Normal file
View file

@ -0,0 +1,109 @@
//! Program instruction cache
use crate::mem::Address;
use {
super::{lookup::AddrPageLookuper, paging::PageTable, PageSize},
core::{
mem::{size_of, MaybeUninit},
ptr::{copy_nonoverlapping, NonNull},
},
};
/// Instruction cache
#[derive(Clone, Debug)]
pub struct ICache {
/// Current page address base
base: Address,
/// Curent page pointer
data: Option<NonNull<u8>>,
/// Current page size
size: PageSize,
/// Address mask
mask: u64,
}
impl Default for ICache {
fn default() -> Self {
Self {
base: Address::NULL,
data: Default::default(),
size: PageSize::Size4K,
mask: Default::default(),
}
}
}
impl ICache {
/// Fetch instruction from cache
///
/// # Safety
/// `T` should be valid to read from instruction memory
pub(super) unsafe fn fetch<T>(
&mut self,
addr: Address,
root_pt: *const PageTable,
) -> Option<T> {
let mut ret = MaybeUninit::<T>::uninit();
let pbase = self
.data
.or_else(|| self.fetch_page(self.base + self.size, root_pt))?;
// Get address base
let base = addr.map(|x| x & self.mask);
// Base not matching, fetch anew
if base != self.base {
self.fetch_page(base, root_pt)?;
};
let offset = addr.get() & !self.mask;
let requ_size = size_of::<T>();
// Page overflow
let rem = (offset as usize)
.saturating_add(requ_size)
.saturating_sub(self.size as _);
let first_copy = requ_size.saturating_sub(rem);
// Copy non-overflowing part
copy_nonoverlapping(pbase.as_ptr(), ret.as_mut_ptr().cast::<u8>(), first_copy);
// Copy overflow
if rem != 0 {
let pbase = self.fetch_page(self.base + self.size, root_pt)?;
// Unlikely, unsupported scenario
if rem > self.size as _ {
return None;
}
copy_nonoverlapping(
pbase.as_ptr(),
ret.as_mut_ptr().cast::<u8>().add(first_copy),
rem,
);
}
Some(ret.assume_init())
}
/// Fetch a page
unsafe fn fetch_page(&mut self, addr: Address, pt: *const PageTable) -> Option<NonNull<u8>> {
let res = AddrPageLookuper::new(addr, 0, pt).next()?.ok()?;
if !super::perm_check::executable(res.perm) {
return None;
}
(self.size, self.mask) = match res.size {
4096 => (PageSize::Size4K, !((1 << 8) - 1)),
2097152 => (PageSize::Size2M, !((1 << (8 * 2)) - 1)),
1073741824 => (PageSize::Size1G, !((1 << (8 * 3)) - 1)),
_ => return None,
};
self.data = Some(NonNull::new(res.ptr)?);
self.base = addr.map(|x| x & self.mask);
self.data
}
}

14
hbvm/src/softpaging/lookup.rs → hbvm/src/mem/softpaging/lookup.rs
View file

@ -1,5 +1,7 @@
//! Address lookup
use crate::mem::addr::Address;
use super::{
addr_extract_index,
paging::{PageTable, Permission},
@ -9,7 +11,7 @@ use super::{
/// Good result from address split
pub struct AddrPageLookupOk {
/// Virtual address
pub vaddr: u64,
pub vaddr: Address,
/// Pointer to the start for perform operation
pub ptr: *mut u8,
@ -24,7 +26,7 @@ pub struct AddrPageLookupOk {
/// Errornous address split result
pub struct AddrPageLookupError {
/// Address of failure
pub addr: u64,
pub addr: Address,
/// Requested page size
pub size: PageSize,
@ -33,7 +35,7 @@ pub struct AddrPageLookupError {
/// Address splitter into pages
pub struct AddrPageLookuper {
/// Current address
addr: u64,
addr: Address,
/// Size left
size: usize,
@ -45,7 +47,7 @@ pub struct AddrPageLookuper {
impl AddrPageLookuper {
/// Create a new page lookuper
#[inline]
pub const fn new(addr: u64, size: usize, pagetable: *const PageTable) -> Self {
pub const fn new(addr: Address, size: usize, pagetable: *const PageTable) -> Self {
Self {
addr,
size,
@ -55,7 +57,7 @@ impl AddrPageLookuper {
/// Bump address by size X
pub fn bump(&mut self, page_size: PageSize) {
self.addr += page_size as u64;
self.addr += page_size;
self.size = self.size.saturating_sub(page_size as _);
}
}
@ -111,7 +113,7 @@ impl Iterator for AddrPageLookuper {
};
// Get available byte count in the selected page with offset
let avail = (size as usize - offset).clamp(0, self.size);
let avail = (size as usize).saturating_sub(offset).clamp(0, self.size);
self.bump(size);
Some(Ok(AddrPageLookupOk {

22
hbvm/src/softpaging/mapping.rs → hbvm/src/mem/softpaging/mapping.rs
View file

@ -1,5 +1,7 @@
//! Automatic memory mapping
use crate::{mem::addr::Address, utils::impl_display};
use {
super::{
addr_extract_index,
@ -7,10 +9,9 @@ use {
PageSize, SoftPagedMem,
},
alloc::boxed::Box,
derive_more::Display,
};
impl<'p, A> SoftPagedMem<'p, A> {
impl<'p, A, const OUT_PROG_EXEC: bool> SoftPagedMem<'p, A, OUT_PROG_EXEC> {
/// Maps host's memory into VM's memory
///
/// # Safety
@ -20,7 +21,7 @@ impl<'p, A> SoftPagedMem<'p, A> {
pub unsafe fn map(
&mut self,
host: *mut u8,
target: u64,
target: Address,
perm: Permission,
pagesize: PageSize,
) -> Result<(), MapError> {
@ -82,7 +83,7 @@ impl<'p, A> SoftPagedMem<'p, A> {
///
/// If errors, it only means there is no entry to unmap and in most cases
/// just should be ignored.
pub fn unmap(&mut self, addr: u64) -> Result<(), NothingToUnmap> {
pub fn unmap(&mut self, addr: Address) -> Result<(), NothingToUnmap> {
let mut current_pt = self.root_pt;
let mut page_tables = [core::ptr::null_mut(); 5];
@ -141,22 +142,25 @@ impl<'p, A> SoftPagedMem<'p, A> {
}
/// Error mapping
#[derive(Clone, Copy, Display, Debug, PartialEq, Eq)]
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub enum MapError {
/// Entry was already mapped
#[display(fmt = "There is already a page mapped on specified address")]
AlreadyMapped,
/// When walking a page entry was
/// encounterd.
#[display(fmt = "There was a page mapped on the way instead of node")]
PageOnNode,
}
impl_display!(for MapError => match {
Self::AlreadyMapped => "There is already a page mapped on specified address";
Self::PageOnNode => "There was a page mapped on the way instead of node";
});
/// There was no entry in page table to unmap
///
/// No worry, don't panic, nothing bad has happened,
/// but if you are 120% sure there should be something,
/// double-check your addresses.
#[derive(Clone, Copy, Display, Debug)]
#[display(fmt = "There was no entry to unmap")]
#[derive(Clone, Copy, Debug)]
pub struct NothingToUnmap;
impl_display!(for NothingToUnmap => "There is no entry to unmap");

98
hbvm/src/softpaging/mod.rs → hbvm/src/mem/softpaging/mod.rs
View file

@ -1,5 +1,6 @@
//! Platform independent, software paged memory implementation
pub mod icache;
pub mod lookup;
pub mod paging;
@ -7,29 +8,43 @@ pub mod paging;
pub mod mapping;
use {
self::lookup::{AddrPageLookupError, AddrPageLookupOk, AddrPageLookuper},
super::{LoadError, Memory, MemoryAccessReason, StoreError},
core::slice::SliceIndex,
super::{addr::Address, LoadError, Memory, MemoryAccessReason, StoreError},
core::mem::size_of,
icache::ICache,
lookup::{AddrPageLookupError, AddrPageLookupOk, AddrPageLookuper},
paging::{PageTable, Permission},
};
/// HoleyBytes software paged memory
///
/// - `OUT_PROG_EXEC`: set to `false` to disable executing program
/// not contained in initially provided program, even the pages
/// are executable
#[derive(Clone, Debug)]
pub struct SoftPagedMem<'p, PfH> {
pub struct SoftPagedMem<'p, PfH, const OUT_PROG_EXEC: bool = true> {
/// Root page table
pub root_pt: *mut PageTable,
/// Page fault handler
pub pf_handler: PfH,
/// Program memory segment
pub program: &'p [u8],
/// Program instruction cache
pub icache: ICache,
}
impl<'p, PfH: HandlePageFault> Memory for SoftPagedMem<'p, PfH> {
impl<'p, PfH: HandlePageFault, const OUT_PROG_EXEC: bool> Memory
for SoftPagedMem<'p, PfH, OUT_PROG_EXEC>
{
/// Load value from an address
///
/// # Safety
/// Applies same conditions as for [`core::ptr::copy_nonoverlapping`]
unsafe fn load(&mut self, addr: u64, target: *mut u8, count: usize) -> Result<(), LoadError> {
unsafe fn load(
&mut self,
addr: Address,
target: *mut u8,
count: usize,
) -> Result<(), LoadError> {
self.memory_access(
MemoryAccessReason::Load,
addr,
@ -47,7 +62,7 @@ impl<'p, PfH: HandlePageFault> Memory for SoftPagedMem<'p, PfH> {
/// Applies same conditions as for [`core::ptr::copy_nonoverlapping`]
unsafe fn store(
&mut self,
addr: u64,
addr: Address,
source: *const u8,
count: usize,
) -> Result<(), StoreError> {
@ -62,26 +77,36 @@ impl<'p, PfH: HandlePageFault> Memory for SoftPagedMem<'p, PfH> {
.map_err(StoreError)
}
/// Fetch slice from program memory section
#[inline(always)]
fn load_prog<I>(&mut self, index: I) -> Option<&I::Output>
where
I: SliceIndex<[u8]>,
{
self.program.get(index)
unsafe fn prog_read<T>(&mut self, addr: Address) -> Option<T> {
if OUT_PROG_EXEC && addr.truncate_usize() > self.program.len() {
return self.icache.fetch::<T>(addr, self.root_pt);
}
let addr = addr.truncate_usize();
self.program
.get(addr..addr + size_of::<T>())
.map(|x| x.as_ptr().cast::<T>().read())
}
/// Fetch slice from program memory section, unchecked!
#[inline(always)]
unsafe fn load_prog_unchecked<I>(&mut self, index: I) -> &I::Output
where
I: SliceIndex<[u8]>,
{
self.program.get_unchecked(index)
unsafe fn prog_read_unchecked<T>(&mut self, addr: Address) -> T {
if OUT_PROG_EXEC && addr.truncate_usize() > self.program.len() {
return self
.icache
.fetch::<T>(addr, self.root_pt)
.unwrap_or_else(|| core::mem::zeroed());
}
self.program
.as_ptr()
.add(addr.truncate_usize())
.cast::<T>()
.read()
}
}
impl<'p, PfH: HandlePageFault> SoftPagedMem<'p, PfH> {
impl<'p, PfH: HandlePageFault, const OUT_PROG_EXEC: bool> SoftPagedMem<'p, PfH, OUT_PROG_EXEC> {
// Everyone behold, the holy function, the god of HBVM memory accesses!
/// Split address to pages, check their permissions and feed pointers with offset
@ -92,32 +117,32 @@ impl<'p, PfH: HandlePageFault> SoftPagedMem<'p, PfH> {
fn memory_access(
&mut self,
reason: MemoryAccessReason,
src: u64,
src: Address,
mut dst: *mut u8,
len: usize,
permission_check: fn(Permission) -> bool,
action: fn(*mut u8, *mut u8, usize),
) -> Result<(), u64> {
) -> Result<(), Address> {
// Memory load from program section
let (src, len) = if src < self.program.len() as _ {
let (src, len) = if src.truncate_usize() < self.program.len() as _ {
// Allow only loads
if reason != MemoryAccessReason::Load {
return Err(src);
}
// Determine how much data to copy from here
let to_copy = len.clamp(0, self.program.len().saturating_sub(src as _));
let to_copy = len.clamp(0, self.program.len().saturating_sub(src.truncate_usize()));
// Perform action
action(
unsafe { self.program.as_ptr().add(src as _).cast_mut() },
unsafe { self.program.as_ptr().add(src.truncate_usize()).cast_mut() },
dst,
to_copy,
);
// Return shifted from what we've already copied
(
src.saturating_add(to_copy as _),
src.saturating_add(to_copy as u64),
len.saturating_sub(to_copy),
)
} else {
@ -178,8 +203,9 @@ impl<'p, PfH: HandlePageFault> SoftPagedMem<'p, PfH> {
///
/// The level shall not be larger than 4, otherwise
/// the output of the function is unspecified (yes, it can also panic :)
pub fn addr_extract_index(addr: u64, lvl: u8) -> usize {
pub fn addr_extract_index(addr: Address, lvl: u8) -> usize {
debug_assert!(lvl <= 4);
let addr = addr.get();
usize::try_from((addr >> (lvl * 8 + 12)) & ((1 << 8) - 1)).expect("?conradluget a better CPU")
}
@ -208,6 +234,22 @@ impl PageSize {
}
}
impl core::ops::Add<PageSize> for Address {
type Output = Self;
#[inline(always)]
fn add(self, rhs: PageSize) -> Self::Output {
self + (rhs as u64)
}
}
impl core::ops::AddAssign<PageSize> for Address {
#[inline(always)]
fn add_assign(&mut self, rhs: PageSize) {
*self = Self::new(self.get().wrapping_add(rhs as u64));
}
}
/// Permisison checks
pub mod perm_check {
use super::paging::Permission;
@ -245,7 +287,7 @@ pub trait HandlePageFault {
&mut self,
reason: MemoryAccessReason,
pagetable: &mut PageTable,
vaddr: u64,
vaddr: Address,
size: PageSize,
dataptr: *mut u8,
) -> bool

0
hbvm/src/softpaging/paging.rs → hbvm/src/mem/softpaging/paging.rs
View file

53
hbvm/src/utils.rs Normal file
View file

@ -0,0 +1,53 @@
macro_rules! impl_display {
(for $ty:ty => $(|$selfty:pat_param|)? $fmt:literal $(, $($param:expr),+)? $(,)?) => {
impl ::core::fmt::Display for $ty {
fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
$(let $selfty = self;)?
write!(f, $fmt, $($param),*)
}
}
};
(for $ty:ty => $str:literal) => {
impl ::core::fmt::Display for $ty {
fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
f.write_str($str)
}
}
};
(for $ty:ty => match {$(
$bind:pat => $($const:ident)? $fmt:literal $(,$($params:tt)*)?;
)*}) => {
impl ::core::fmt::Display for $ty {
fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
match self {
$(
$bind => $crate::utils::internal::impl_display_match_fragment!($($const,)? f, $fmt $(, $($params)*)?)
),*
}
}
}
}
}
#[doc(hidden)]
pub(crate) mod internal {
macro_rules! impl_display_match_fragment {
(const, $f:expr, $lit:literal) => {
$f.write_str($lit)
};
($f:expr, $fmt:literal $(, $($params:tt)*)?) => {
write!($f, $fmt, $($($params)*)?)
};
}
pub(crate) use impl_display_match_fragment;
}
macro_rules! static_assert_eq(($l:expr, $r:expr $(,)?) => {
const _: [(); ($l != $r) as usize] = [];
});
pub(crate) use {impl_display, static_assert_eq};

21
hbvm/src/value.rs
View file

@ -1,7 +1,5 @@
//! HoleyBytes register value definition
use sealed::sealed;
/// Define [`Value`] union
///
/// # Safety
@ -28,12 +26,12 @@ macro_rules! value_def {
}
}
static_assertions::const_assert_eq!(
crate::utils::static_assert_eq!(
core::mem::size_of::<$ty>(),
core::mem::size_of::<Value>(),
);
#[sealed]
impl private::Sealed for $ty {}
unsafe impl ValueVariant for $ty {}
)*
};
@ -44,13 +42,13 @@ impl Value {
#[inline]
pub fn cast<V: ValueVariant>(self) -> V {
/// Evil.
///
///
/// Transmute cannot be performed with generic type
/// as size is unknown, so union is used.
///
///
/// # Safety
/// If [`ValueVariant`] implemented correctly, it's fine :)
///
///
/// :ferrisClueless:
union Transmute<Variant: ValueVariant> {
/// Self
@ -65,11 +63,14 @@ impl Value {
/// # Safety
/// - N/A, not to be implemented manually
#[sealed]
pub unsafe trait ValueVariant: Copy + Into<Value> {}
pub unsafe trait ValueVariant: private::Sealed + Copy + Into<Value> {}
mod private {
pub trait Sealed {}
}
value_def!(u64, i64, f64);
static_assertions::const_assert_eq!(core::mem::size_of::<Value>(), 8);
crate::utils::static_assert_eq!(core::mem::size_of::<Value>(), 8);
impl core::fmt::Debug for Value {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {

409
hbvm/src/vmrun.rs Normal file
View file

@ -0,0 +1,409 @@
//! Welcome to the land of The Great Dispatch Loop
//!
//! Have fun
use crate::mem::Address;
use {
super::{
bmc::BlockCopier,
mem::Memory,
value::{Value, ValueVariant},
Vm, VmRunError, VmRunOk,
},
core::{cmp::Ordering, mem::size_of, ops},
hbbytecode::{
ParamBB, ParamBBB, ParamBBBB, ParamBBD, ParamBBDH, ParamBBW, ParamBD, ProgramVal,
},
};
impl<Mem, const TIMER_QUOTIENT: usize> Vm<Mem, TIMER_QUOTIENT>
where
Mem: Memory,
{
/// Execute program
///
/// Program can return [`VmRunError`] if a trap handling failed
#[cfg_attr(feature = "nightly", repr(align(4096)))]
pub fn run(&mut self) -> Result<VmRunOk, VmRunError> {
use hbbytecode::opcode::*;
loop {
// Big match
//
// Contribution guide:
// - Zero register shall never be overwitten. It's value has to always be 0.
// - Prefer `Self::read_reg` and `Self::write_reg` functions
// - Extract parameters using `param!` macro
// - Prioritise speed over code size
// - Memory is cheap, CPUs not that much
// - Do not heap allocate at any cost
// - Yes, user-provided trap handler may allocate,
// but that is not our »fault«.
// - Unsafe is kinda must, but be sure you have validated everything
// - Your contributions have to pass sanitizers and Miri
// - Strictly follow the spec
// - The spec does not specify how you perform actions, in what order,
// just that the observable effects have to be performed in order and
// correctly.
// - Yes, we assume you run 64 bit CPU. Else ?conradluget a better CPU
// sorry 8 bit fans, HBVM won't run on your Speccy :(
unsafe {
match self
.memory
.prog_read::<u8>(self.pc as _)
.ok_or(VmRunError::ProgramFetchLoadEx(self.pc as _))?
{
UN => {
self.decode::<()>();
return Err(VmRunError::Unreachable);
}
TX => {
self.decode::<()>();
return Ok(VmRunOk::End);
}
NOP => self.decode::<()>(),
ADD => self.binary_op(u64::wrapping_add),
SUB => self.binary_op(u64::wrapping_sub),
MUL => self.binary_op(u64::wrapping_mul),
AND => self.binary_op::<u64>(ops::BitAnd::bitand),
OR => self.binary_op::<u64>(ops::BitOr::bitor),
XOR => self.binary_op::<u64>(ops::BitXor::bitxor),
SL => self.binary_op(|l, r| u64::wrapping_shl(l, r as u32)),
SR => self.binary_op(|l, r| u64::wrapping_shr(l, r as u32)),
SRS => self.binary_op(|l, r| i64::wrapping_shl(l, r as u32)),
CMP => {
// Compare a0 <=> a1
// < → 0
// > → 1
// = → 2
let ParamBBB(tg, a0, a1) = self.decode();
self.write_reg(
tg,
self.read_reg(a0)
.cast::<i64>()
.cmp(&self.read_reg(a1).cast::<i64>())
as i64
+ 1,
);
}
CMPU => {
// Unsigned comparsion
let ParamBBB(tg, a0, a1) = self.decode();
self.write_reg(
tg,
self.read_reg(a0)
.cast::<u64>()
.cmp(&self.read_reg(a1).cast::<u64>())
as i64
+ 1,
);
}
NOT => {
// Logical negation
let ParamBB(tg, a0) = self.decode();
self.write_reg(tg, !self.read_reg(a0).cast::<u64>());
}
NEG => {
// Bitwise negation
let ParamBB(tg, a0) = self.decode();
self.write_reg(
tg,
match self.read_reg(a0).cast::<u64>() {
0 => 1_u64,
_ => 0,
},
);
}
DIR => {
// Fused Division-Remainder
let ParamBBBB(dt, rt, a0, a1) = self.decode();
let a0 = self.read_reg(a0).cast::<u64>();
let a1 = self.read_reg(a1).cast::<u64>();
self.write_reg(dt, a0.checked_div(a1).unwrap_or(u64::MAX));
self.write_reg(rt, a0.checked_rem(a1).unwrap_or(u64::MAX));
}
ADDI => self.binary_op_imm(u64::wrapping_add),
MULI => self.binary_op_imm(u64::wrapping_sub),
ANDI => self.binary_op_imm::<u64>(ops::BitAnd::bitand),
ORI => self.binary_op_imm::<u64>(ops::BitOr::bitor),
XORI => self.binary_op_imm::<u64>(ops::BitXor::bitxor),
SLI => self.binary_op_ims(u64::wrapping_shl),
SRI => self.binary_op_ims(u64::wrapping_shr),
SRSI => self.binary_op_ims(i64::wrapping_shr),
CMPI => {
let ParamBBD(tg, a0, imm) = self.decode();
self.write_reg(
tg,
self.read_reg(a0)
.cast::<i64>()
.cmp(&Value::from(imm).cast::<i64>())
as i64,
);
}
CMPUI => {
let ParamBBD(tg, a0, imm) = self.decode();
self.write_reg(tg, self.read_reg(a0).cast::<u64>().cmp(&imm) as i64);
}
CP => {
let ParamBB(tg, a0) = self.decode();
self.write_reg(tg, self.read_reg(a0));
}
SWA => {
// Swap registers
let ParamBB(r0, r1) = self.decode();
match (r0, r1) {
(0, 0) => (),
(dst, 0) | (0, dst) => self.write_reg(dst, 0_u64),
(r0, r1) => {
core::ptr::swap(
self.registers.get_unchecked_mut(usize::from(r0)),
self.registers.get_unchecked_mut(usize::from(r1)),
);
}
}
}
LI => {
let ParamBD(tg, imm) = self.decode();
self.write_reg(tg, imm);
}
LD => {
// Load. If loading more than register size, continue on adjecent registers
let ParamBBDH(dst, base, off, count) = self.decode();
let n: u8 = match dst {
0 => 1,
_ => 0,
};
self.memory.load(
self.ldst_addr_uber(dst, base, off, count, n)?,
self.registers
.as_mut_ptr()
.add(usize::from(dst) + usize::from(n))
.cast(),
usize::from(count).saturating_sub(n.into()),
)?;
}
ST => {
// Store. Same rules apply as to LD
let ParamBBDH(dst, base, off, count) = self.decode();
self.memory.store(
self.ldst_addr_uber(dst, base, off, count, 0)?,
self.registers.as_ptr().add(usize::from(dst)).cast(),
count.into(),
)?;
}
BMC => {
// Block memory copy
match if let Some(copier) = &mut self.copier {
// There is some copier, poll.
copier.poll(&mut self.memory)
} else {
// There is none, make one!
let ParamBBD(src, dst, count) = self.decode();
// So we are still on BMC on next cycle
self.pc -= size_of::<ParamBBD>() + 1;
self.copier = Some(BlockCopier::new(
Address::new(self.read_reg(src).cast()),
Address::new(self.read_reg(dst).cast()),
count as _,
));
self.copier
.as_mut()
.unwrap_unchecked() // SAFETY: We just assigned there
.poll(&mut self.memory)
} {
// We are done, shift program counter
core::task::Poll::Ready(Ok(())) => {
self.copier = None;
self.pc += size_of::<ParamBBD>() + 1;
}
// Error, shift program counter (for consistency)
// and yield error
core::task::Poll::Ready(Err(e)) => {
self.pc += size_of::<ParamBBD>() + 1;
return Err(e.into());
}
// Not done yet, proceed to next cycle
core::task::Poll::Pending => (),
}
}
BRC => {
// Block register copy
let ParamBBB(src, dst, count) = self.decode();
if src.checked_add(count).is_none() || dst.checked_add(count).is_none() {
return Err(VmRunError::RegOutOfBounds);
}
core::ptr::copy(
self.registers.get_unchecked(usize::from(src)),
self.registers.get_unchecked_mut(usize::from(dst)),
usize::from(count),
);
}
JAL => {
// Jump and link. Save PC after this instruction to
// specified register and jump to reg + offset.
let ParamBBD(save, reg, offset) = self.decode();
self.write_reg(save, self.pc.get());
self.pc =
Address::new(self.read_reg(reg).cast::<u64>().saturating_add(offset));
}
// Conditional jumps, jump only to immediates
JEQ => self.cond_jmp::<u64>(Ordering::Equal),
JNE => {
let ParamBBD(a0, a1, jt) = self.decode();
if self.read_reg(a0).cast::<u64>() != self.read_reg(a1).cast::<u64>() {
self.pc = Address::new(jt);
}
}
JLT => self.cond_jmp::<u64>(Ordering::Less),
JGT => self.cond_jmp::<u64>(Ordering::Greater),
JLTU => self.cond_jmp::<i64>(Ordering::Less),
JGTU => self.cond_jmp::<i64>(Ordering::Greater),
ECALL => {
self.decode::<()>();
// So we don't get timer interrupt after ECALL
if TIMER_QUOTIENT != 0 {
self.timer = self.timer.wrapping_add(1);
}
return Ok(VmRunOk::Ecall);
}
ADDF => self.binary_op::<f64>(ops::Add::add),
SUBF => self.binary_op::<f64>(ops::Sub::sub),
MULF => self.binary_op::<f64>(ops::Mul::mul),
DIRF => {
let ParamBBBB(dt, rt, a0, a1) = self.decode();
let a0 = self.read_reg(a0).cast::<f64>();
let a1 = self.read_reg(a1).cast::<f64>();
self.write_reg(dt, a0 / a1);
self.write_reg(rt, a0 % a1);
}
FMAF => {
let ParamBBBB(dt, a0, a1, a2) = self.decode();
self.write_reg(
dt,
self.read_reg(a0).cast::<f64>() * self.read_reg(a1).cast::<f64>()
+ self.read_reg(a2).cast::<f64>(),
);
}
NEGF => {
let ParamBB(dt, a0) = self.decode();
self.write_reg(dt, -self.read_reg(a0).cast::<f64>());
}
ITF => {
let ParamBB(dt, a0) = self.decode();
self.write_reg(dt, self.read_reg(a0).cast::<i64>() as f64);
}
FTI => {
let ParamBB(dt, a0) = self.decode();
self.write_reg(dt, self.read_reg(a0).cast::<f64>() as i64);
}
ADDFI => self.binary_op_imm::<f64>(ops::Add::add),
MULFI => self.binary_op_imm::<f64>(ops::Mul::mul),
op => return Err(VmRunError::InvalidOpcode(op)),
}
}
if TIMER_QUOTIENT != 0 {
self.timer = self.timer.wrapping_add(1);
if self.timer % TIMER_QUOTIENT == 0 {
return Ok(VmRunOk::Timer);
}
}
}
}
/// Decode instruction operands
#[inline(always)]
unsafe fn decode<T: ProgramVal>(&mut self) -> T {
let pc1 = self.pc + 1_u64;
let data = self.memory.prog_read_unchecked::<T>(pc1 as _);
self.pc += 1 + size_of::<T>();
data
}
/// Perform binary operating over two registers
#[inline(always)]
unsafe fn binary_op<T: ValueVariant>(&mut self, op: impl Fn(T, T) -> T) {
let ParamBBB(tg, a0, a1) = self.decode();
self.write_reg(
tg,
op(self.read_reg(a0).cast::<T>(), self.read_reg(a1).cast::<T>()),
);
}
/// Perform binary operation over register and immediate
#[inline(always)]
unsafe fn binary_op_imm<T: ValueVariant>(&mut self, op: impl Fn(T, T) -> T) {
let ParamBBD(tg, reg, imm) = self.decode();
self.write_reg(
tg,
op(self.read_reg(reg).cast::<T>(), Value::from(imm).cast::<T>()),
);
}
/// Perform binary operation over register and shift immediate
#[inline(always)]
unsafe fn binary_op_ims<T: ValueVariant>(&mut self, op: impl Fn(T, u32) -> T) {
let ParamBBW(tg, reg, imm) = self.decode();
self.write_reg(tg, op(self.read_reg(reg).cast::<T>(), imm));
}
/// Jump at `#3` if ordering on `#0 <=> #1` is equal to expected
#[inline(always)]
unsafe fn cond_jmp<T: ValueVariant + Ord>(&mut self, expected: Ordering) {
let ParamBBD(a0, a1, ja) = self.decode();
if self
.read_reg(a0)
.cast::<T>()
.cmp(&self.read_reg(a1).cast::<T>())
== expected
{
self.pc = Address::new(ja);
}
}
/// Read register
#[inline(always)]
unsafe fn read_reg(&self, n: u8) -> Value {
*self.registers.get_unchecked(n as usize)
}
/// Write a register.
/// Writing to register 0 is no-op.
#[inline(always)]
unsafe fn write_reg(&mut self, n: u8, value: impl Into<Value>) {
if n != 0 {
*self.registers.get_unchecked_mut(n as usize) = value.into();
}
}
/// Load / Store Address check-computation überfunction
#[inline(always)]
unsafe fn ldst_addr_uber(
&self,
dst: u8,
base: u8,
offset: u64,
size: u16,
adder: u8,
) -> Result<Address, VmRunError> {
let reg = dst.checked_add(adder).ok_or(VmRunError::RegOutOfBounds)?;
if usize::from(reg) * 8 + usize::from(size) > 2048 {
Err(VmRunError::RegOutOfBounds)
} else {
self.read_reg(base)
.cast::<u64>()
.checked_add(offset)
.and_then(|x| x.checked_add(adder.into()))
.ok_or(VmRunError::AddrOutOfBounds)
.map(Address::new)
}
}
}

50
spec.md
View file

@ -56,7 +56,7 @@
| 7 | OR | Bitor |
| 8 | XOR | Bitxor |
| 9 | SL | Unsigned left bitshift |
| 10 | SR | Unsigned right bitshift |
| 10 | SR | Unsigned right bitshift |
| 11 | SRS | Signed right bitshift |
### Comparsion
@ -68,9 +68,9 @@
#### Comparsion table
| #1 *op* #2 | Result |
|:----------:|:------:|
| < | -1 |
| = | 0 |
| > | 1 |
| < | 0 |
| = | 1 |
| > | 2 |
### Division-remainder
- Type BBBB
@ -179,11 +179,17 @@
## Control flow
### Unconditional jump
- Type D
| Opcode | Name | Action |
|:------:|:----:|:-------------------------------:|
| 34 | JMP | Unconditional, non-linking jump |
### Unconditional linking jump
- Type BBD
| Opcode | Name | Action |
|:------:|:----:|:--------------------------------------------------:|
| 34 | JAL | Save PC past JAL to `#0` and jump at `#1 + imm #2` |
| 35 | JAL | Save PC past JAL to `#0` and jump at `#1 + imm #2` |
### Conditional jumps
- Type BBD
@ -191,19 +197,19 @@
| Opcode | Name | Comparsion |
|:------:|:----:|:------------:|
| 35 | JEQ | = |
| 36 | JNE | ≠ |
| 37 | JLT | < (signed) |
| 38 | JGT | > (signed) |
| 39 | JLTU | < (unsigned) |
| 40 | JGTU | > (unsigned) |
| 36 | JEQ | = |
| 37 | JNE | ≠ |
| 38 | JLT | < (signed) |
| 39 | JGT | > (signed) |
| 40 | JLTU | < (unsigned) |
| 41 | JGTU | > (unsigned) |
### Environment call
- Type N
| Opcode | Name | Action |
|:------:|:-----:|:-------------------------------------:|
| 41 | ECALL | Cause an trap to the host environment |
| 42 | ECALL | Cause an trap to the host environment |
## Floating point operations
- Type BBB
@ -211,29 +217,29 @@
| Opcode | Name | Action |
|:------:|:----:|:--------------:|
| 42 | ADDF | Addition |
| 43 | SUBF | Subtraction |
| 44 | MULF | Multiplication |
| 43 | ADDF | Addition |
| 44 | SUBF | Subtraction |
| 45 | MULF | Multiplication |
### Division-remainder
- Type BBBB
| Opcode | Name | Action |
|:------:|:----:|:-------------------------:|
| 45 | DIRF | Same as for integer `DIR` |
| 46 | DIRF | Same as for integer `DIR` |
### Fused Multiply-Add
- Type BBBB
| Opcode | Name | Action |
|:------:|:----:|:---------------------:|
| 46 | FMAF | `#0 ← (#1 * #2) + #3` |
| 47 | FMAF | `#0 ← (#1 * #2) + #3` |
### Negation
- Type BB
| Opcode | Name | Action |
|:------:|:----:|:----------:|
| 47 | NEGF | `#0 ← -#1` |
| 48 | NEGF | `#0 ← -#1` |
### Conversion
- Type BB
@ -242,8 +248,8 @@
| Opcode | Name | Action |
|:------:|:----:|:------------:|
| 48 | ITF | Int to Float |
| 49 | FTI | Float to Int |
| 49 | ITF | Int to Float |
| 50 | FTI | Float to Int |
## Floating point immediate operations
- Type BBD
@ -251,8 +257,8 @@
| Opcode | Name | Action |
|:------:|:-----:|:--------------:|
| 50 | ADDFI | Addition |
| 51 | MULFI | Multiplication |
| 51 | ADDFI | Addition |
| 52 | MULFI | Multiplication |
# Registers
- There is 255 registers + one zero register (with index 0)