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11 commits

Author SHA1 Message Date
Talha Qamar 923e8b7218 added some basic validation 2024-09-19 14:00:25 +05:00
Talha Qamar 0e5d5f7de7 Brought parser back completely from the dead 2024-09-14 06:09:41 +05:00
Talha Qamar d0d6f0475e Added types 2024-09-14 05:57:18 +05:00
Talha Qamar 0775d0c70a Added locations to Tokens in the parser 2024-09-13 14:40:09 +05:00
Talha Qamar 86e1020bc7 fixed warnings 2024-09-11 11:11:46 +05:00
Talha Qamar 39f7d5aba4 Fixed lexer not taking identifiers with number in them and finished parsing support for protocols 2024-09-11 11:05:05 +05:00
Talha Qamar 45950fdb34 Added ProtocolDeclaration datatype 2024-09-11 09:00:08 +05:00
Talha Qamar f9451e3d7d preparing materials for adding protocol to parser and added type aliases to parser 2024-09-11 05:18:11 +05:00
Talha Qamar 6be6635e4e big rewrite 2024-09-11 04:50:51 +05:00
Talha Qamar b5cdc9c4fd changed file extension to .aldi and made it so that decorators don't work 2024-09-11 01:29:18 +05:00
Talha Qamar 94b7aabdec Added struct declarations to parsers 2024-09-11 01:17:36 +05:00
251 changed files with 3138 additions and 7756 deletions

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@ -1,3 +1,3 @@
[alias]
repbuild = "run --manifest-path ./repbuild/Cargo.toml -- "
repbuild = "run --manifest-path ./repbuild/Cargo.toml -r --"
dev = "run --manifest-path ./dev/Cargo.toml -r --"

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@ -1,6 +1,4 @@
{
"editor.insertSpaces": false,
"editor.detectIndentation": false,
"rust-analyzer.checkOnSave.allTargets": false,
"rust-analyzer.showUnlinkedFileNotification": false,
"C_Cpp.errorSquiggles": "disabled"

1430
Cargo.lock generated

File diff suppressed because it is too large Load diff

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@ -1,9 +1,3 @@
[workspace]
resolver = "2"
members = ["dev", "kernel", "repbuild"]
# [profile.release]
# strip = "symbols"
# codegen-units = 1
# lto = true
# panic = "abort"
members = [ "dev","kernel", "repbuild"]

69
HELP.md
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@ -1,69 +0,0 @@
### What are the requirements?
- A machine with [Rustc Tier 1 platform support](https://doc.rust-lang.org/nightly/rustc/platform-support.html#tier-1-with-host-tools)
- Rustup
- QEMU (for executing)
- GIT CLI
### How do I run ableos?
- It is recommended to run ableos under QEMU. Here is how:
- Install QEMU
- Clone ableos
- Go to ableos directory
- Pull the limine submodule with `git submodule update --init`
- Run `cargo repbuild help`
### How can I contribute?
- [Contribute code](#how-do-i-contribute-code)
- [Run ableos on your machine](#how-do-i-run-ableos)
- Find bugs
- Create media showing ableos
### How do I contribute code?
- Start by forking ableos
- Write something that runs in the userspace, for example:
- System drivers
- Programs
- Libraries
- Patch bugs and improve code in the kernel
- Ensure that the code is OK to be maintained by asking in the [discord](https://discord.gg/t5Wt3K4YNA)
- When you have finished your changes, you can submit a pull request for review [here](https://git.ablecorp.us/ableos/ableos)
### repbuild and kernel compile, but QEMU isn't starting
- Ensure you have the `qemu-desktop-{arch}` for your OS and target architecture installed
- Try running again with `--noaccel` if you have QEMU already
### I have run using repbuild but it's slow
- Ensure release mode is enabled with the `-r` flag
- Remove the `--noaccel` flag if you can
- If both of these are already done, there may be a problem with thee VM, kernel, your program, or the hblang compiler
### Compiler is complaining about "reg id leaked"
- [Submit](#how-do-i-report-a-compiler-bug) an issue, reg id leaked is a bug
### My program isn't running
- Refer to [here](#i-have-run-using-repbuild-but-its-slow), it may be that your program is simply starting slowly
- Ensure that your program has a properly written meta.toml file
- Ensure that your program is enabled in [system_config.toml](sysdata/system_config.toml)
- Try running again with `--noaccel`, there is a known bug with some systems that prevents programs from starting.
### Kernel panic??? Huh???
- Kernel panics can be caused by improperly using memory (e.g, writing out of bounds)
- Kernel panics are most likely to be caused when accessing memory or using `@eca` for kernel ecalls
- [Report](#how-do-i-report-an-ableos-bug) a kernel panic
### I am running in release mode but I have no debug info
- Add the `-d` flag for debug info
### What is `@eca`? How do I use it?
- Eca is an ecall. They are similar to syscalls
- The `@eca` directive takes the following arguments:
- `@eca(ecall_number, reg_1, ..., reg_n)`
- The various ecalls have different arguments that are given by register values
- Most ecalls are wrapped by `stn`, for example, `random`, `buffer`, and `memory` all make use of ecalls
- All ecalls can be found [ecah.rs](kernel/src/holeybytes/ecah.rs)
### How do I report an ableos bug?
- Submit an issue [here](https://git.ablecorp.us/ableos/ableos/issues) or report it in the [discord](https://discord.gg/t5Wt3K4YNA)
### How do I report a compiler bug?
- Submit an issue [here](https://git.ablecorp.us/ableos/holey-bytes/issues) or report it in the [discord](https://discord.gg/t5Wt3K4YNA)

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@ -10,7 +10,15 @@ Donations can be made [here on Liberapay](https://liberapay.com/AbleTheAbove) or
<img src="https://img.shields.io/liberapay/patrons/AbleTheAbove.svg?logo=liberapay">
# Compiling
See [HELP.md](HELP.md)
AbleOS should be able to be built on any platform which is supported by
[Rustc Tier 1 platform support](https://doc.rust-lang.org/nightly/rustc/platform-support.html#tier-1-with-host-tools).
For running AbleOS, `repbuild` uses QEMU.
## Steps
1. Ensure you have qemu installed
2. `git submodule update --init`
3. `cargo repbuild run`
# Developing
There is a new work in progress developer tool for hblang. (see: dev folder)
There is a new work in progress developer tool for hblang.

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@ -1,77 +0,0 @@
# Style Guide
This style guide has two modes that a guideline may be.
`strict` means that prs will be rejected if they do not follow the guideline.
`loose` means that a pr would be accepted but should later be fixed.
## Empty Functions | loose
Empty functions are typically a sign of an unfinished program or driver.
In cases where there is a clear reason to have an empty function it will be allowed.
For example FakeAlloc is only empty functions because it is a example of an the allocator api.
### Allowed
```rust
/// in example.hb
a := fn(): void {}
```
### Not Allowed
```rust
/// in fat32.hb
a := fn(): void {}
```
## Magic Functions | loose
'Magic functions' are what I am calling small helper functions that do one or two things.
### Example
```rust
a := null
magic_a := fn(){
a = 10
}
```
The exact policy I want to have here is a bit fuzzy. I think that functions like this are nice in certain situations and not in others.
Regardless of if you use them or not, put a comment above the function explaining rational.
## Magic Numbers | loose
The policy on magic numbers is make them const and have a comment above them. Typically linking to a source of information about the magic number.
This helps cut down on magic numbers while making acceptable names and atleast half assed documentation.
Constants are inlined anyways, so its the same thing in the binary.
```rust
// The standard vga port is mapped at 0xB8000
$VGA_PTR := 0xB8000
```
## Tabs Vs Spaces | strict
I prefer for hblang code to use hard tabs.
The rational behind this is that a tab is `1 Indent` which some developers might want to be various different sizes when displayed
Soft tabs do not allow this user/editor specific as soft tabs always become spaces.
Bottom line is this is an accessibility feature.
There are some samples below.
```
\t means hard tab
\n means new line
\0x20 means space
```
### Allowed
```rust
if x == y {\n
\tlog(z)\n
}\n
```
### Not Allowed
```rust
if x == y {\n
\0x20\0x20\0x20\0x20log(z)\n
}\n
```

31
dev/aldi.bnf Normal file
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@ -0,0 +1,31 @@
declarations ::= <declaration> <declarations>
declaration ::= <enum_decl> | <struct_decl> | <type_decl> | <protocol_decl>
type_decl ::= "type" <ident> <ident> ";"
enum_decl ::= "enum" <ident> "{" "}"
| "enum" <ident> "{" <enum_members> "}"
enum_members ::= <enum_member> ["," <enum_member>]+ [","]
enum_member ::= <ident> "=" <number>
struct_decl ::= "struct" <ident> "{" "}"
| "struct" <ident> "{" <struct_members> "}"
struct_members ::= <struct_member>
| <struct_member> ","
| <struct_member> "," <struct_members>
| <struct_member> "," <struct_members>
protocol_decl ::= "protocol" <ident> "{" "}"
| "protocol" <ident> "{" <protocol_member>+ "}"
protocol_member ::= "fn" <ident>"("[<arg_list>]")" "->" <ident> ";"
arg_list ::= <ident> ["," <ident>]+

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@ -1,56 +1,78 @@
pub mod protocol;
mod parser;
mod types;
mod protocol;
use crate::idl::{parser::parse, types::get_protocols};
use std::io::Read;
use {
logos::{Lexer, Logos},
protocol::Protocol,
};
use logos::{Lexer, Logos, Skip};
#[derive(Logos, Debug, PartialEq, Clone)]
#[logos(skip r"[ \t\n\f]+")] // Ignore this regex pattern between tokens
#[logos(extras = (usize, usize))]
enum Token {
#[regex("//[^\n]*", logos::skip)]
Comment,
#[regex(r"[ \t\f]+", logos::skip)]
Ignored,
#[regex(r"\n", newline_callback)]
Newline,
// Tokens can be literal strings, of any length.
#[token("protocol")]
Protocol,
#[token("protocol", get_token_position)]
Protocol((usize,usize)),
#[token("{")]
LBrace,
// Tokens can be literal strings, of any length.
#[token("type", get_token_position)]
Type((usize, usize)),
#[token("}")]
RBrace,
#[token("fn", priority = 5, callback = get_token_position)]
Fn((usize, usize)),
#[token("(")]
LParen,
#[token("enum", get_token_position)]
Enum((usize, usize)),
#[token(")")]
RParen,
#[token("struct", get_token_position)]
Struct((usize, usize)),
#[token(":")]
Colon,
#[token(";")]
SemiColon,
#[token("{", get_token_position)]
LBrace((usize, usize)),
#[token(",")]
Comma,
#[token("}", get_token_position)]
RBrace((usize, usize)),
#[token("=")]
Equal,
#[token("(", get_token_position)]
LParen((usize, usize)),
#[token("->")]
RArrow,
#[token(")", get_token_position)]
RParen((usize, usize)),
#[regex("[a-zA-Z_]+", |lex|{lex.slice().to_string()})]
Text(String),
#[token(":", get_token_position)]
Colon((usize, usize)),
#[regex("[1234567890]+", |lex|{lex.slice().parse::<u64>().unwrap()})]
Number(u64),
#[token(";", get_token_position)]
SemiColon((usize, usize)),
#[regex(r"@[a-zA-Z_]+", |lex|{lex.slice().to_string()})]
Decorator(String),
#[token(",", get_token_position)] Comma((usize, usize)),
#[regex(r#"@[a-zA-Z_]+\([a-zA-Z,0-9=]+\)"#, |lex|{lex.slice().to_string()})]
DecoratorOption(String),
#[token("=", get_token_position)]
Equal((usize, usize)),
#[token("->", get_token_position)]
RArrow((usize, usize)),
#[regex("[a-zA-Z_][a-zA-Z_1234567890]+", |lex|{let text = lex.slice().to_string(); let (line, col) = get_token_position(lex); (line, col, text)})]
Identifier((usize, usize, String)),
#[regex("[1234567890]+", |lex|{let num = lex.slice().parse::<u64>().unwrap(); let (line, col) = get_token_position(lex); (line, col, num) })]
Number((usize, usize, u64)),
#[regex(r"@[a-zA-Z_]+", /*|lex|{lex.slice().to_string()}*/ logos::skip)]
Decorator,
#[regex(r#"@[a-zA-Z_]+\([a-zA-Z,0-9=]+\)"#, /*|lex|{lex.slice().to_string()}*/ logos::skip)]
DecoratorOption,
}
pub fn build_idl(name: String) {
@ -60,25 +82,36 @@ pub fn build_idl(name: String) {
for x in lex {
match x {
Ok(token) => {
println!("{:?}", token);
tokens.push(token);
}
Err(err) => println!("{:?}", err),
}
}
build(tokens);
}
fn build(a: Vec<Token>) {
for toke in a {
println!("{:?}", toke);
}
let protocols = get_protocols(parse(tokens));
let data : Vec<u8> = vec![1, 5, 12, 12, 12, 12, 3, 28, 8, 28];
println!("{:#?}", &protocols);
protocols.validate("Foo", "bar" , data).unwrap();
}
fn open_protocol(name: String) -> String {
let path = format!("sysdata/idl/{}/src/protocol.aidl", name);
let path = format!("sysdata/idl/{}/src/protocol.aldi", name);
let mut file = std::fs::File::open(path).unwrap();
let mut contents = String::new();
file.read_to_string(&mut contents).unwrap();
contents
}
fn get_token_position(lex : &mut Lexer<Token>) -> (usize, usize) {
let line = lex.extras.0;
let column = lex.span().start - lex.extras.1;
(line, column + 1)
}
/// Update the line count and the char index.
fn newline_callback(lex: &mut Lexer<Token>) -> Skip {
lex.extras.0 += 1;
lex.extras.1 = lex.span().end;
Skip
}

277
dev/src/idl/parser.rs Normal file
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@ -0,0 +1,277 @@
use std::{iter::Peekable, slice::Iter};
use super::Token;
#[derive(Debug, Clone, PartialEq)]
pub struct AST(pub Vec<Declaration>);
#[derive(Debug, Clone, PartialEq)]
pub enum Declaration{
EnumDeclaration(EnumDeclaration),
StructDeclaration(StructDeclaration),
TypeDeclaration(TypeDeclaration),
ProtocolDeclaration(ProtocolDeclaration),
}
#[derive(Debug, Clone, PartialEq)]
pub struct StructDeclaration {
pub name : String,
pub members : Vec<StructMember>,
}
#[derive(Debug, Clone, PartialEq)]
pub struct TypeDeclaration {
pub name : String,
pub type_name : String,
}
#[derive(Debug, Clone, PartialEq)]
pub struct StructMember {
pub name : String,
pub type_name : String,
}
#[derive(Debug, Clone, PartialEq)]
pub struct EnumDeclaration {
pub name : String,
pub members : Vec<EnumMember>,
}
#[derive(Debug, Clone, PartialEq)]
pub struct EnumMember {
pub name : String,
pub number: u64,
}
#[derive(Debug, Clone, PartialEq)]
pub struct ProtocolDeclaration{
pub name : String,
pub interface : Vec<FuncDeclaration>,
}
#[derive(Debug, Clone, PartialEq)]
pub struct FuncDeclaration {
pub name : String,
pub arg_list : Vec<String>,
pub return_type : String,
}
macro_rules! consume {
($tokens:ident, $token_type:path) => {
let a = $tokens.next();
match a {
None => panic!("Expected {}, Got End Of Tokens", stringify!($token_type)),
Some(t) => {
if matches!(t, $token_type(_)){}
else {
panic!("Expected {:?}, Got {:?}", stringify!($token_type), t);
}
}
}
};
}
pub fn parse(tokens : Vec<Token>) -> AST{
let mut tokens_iter = tokens.iter().peekable();
AST(declarations(&mut tokens_iter))
}
fn declarations(tokens : &mut Peekable<Iter<'_, Token>>) -> Vec<Declaration> {
let mut decls : Vec<Declaration> = Vec::new();
loop {
match declaration(tokens) {
Some(x) => decls.push(x),
None => break,
}
}
decls
}
fn declaration(tokens : &mut Peekable<Iter<'_, Token>>) -> Option<Declaration> {
match tokens.peek(){
None => None,
Some(tok) => match tok {
Token::Enum(_) => Some(enum_decl(tokens)),
Token::Struct(_) => Some(struct_decl(tokens)),
Token::Type(_) => Some(type_declaration(tokens)),
Token::Protocol(_) => Some(protocol_declaration(tokens)),
_ => None,
}
}
}
fn enum_decl(tokens : &mut Peekable<Iter<'_, Token>>) -> Declaration {
consume!(tokens, Token::Enum);
let name = identifier(tokens).expect("Expected Identifier after `enum`");
consume!(tokens, Token::LBrace);
let mut members = Vec::new();
match tokens.peek().expect("Unexpected EOF after LBrace") {
Token::RBrace(_) => {}, // skip checking for enum_members if empty
_ => {
enum_members(tokens, &mut members);
},
}
consume!(tokens, Token::RBrace);
Declaration::EnumDeclaration(EnumDeclaration{name, members})
}
fn enum_members(tokens : &mut Peekable<Iter<'_, Token>>, members: &mut Vec<EnumMember>) {
members.push(enum_member(tokens).unwrap());
loop {
match tokens.peek().expect("Unexpected EOF inside enum declaration") {
Token::Comma(_) => {
consume!(tokens, Token::Comma);
if let Some(member) = enum_member(tokens) {
members.push(member);
} else {
break;
}
},
_ => {},
}
}
}
fn enum_member(tokens : &mut Peekable<Iter<'_, Token>>) -> Option<EnumMember> {
let name = identifier(tokens);
if let Some(name) = name {
consume!(tokens, Token::Equal);
let number = parse_number(tokens).expect("Expected Number after `=`");
Some(EnumMember{name, number})
} else {
None
}
}
fn struct_decl(tokens : &mut Peekable<Iter<'_, Token>>) -> Declaration {
consume!(tokens, Token::Struct);
let name = identifier(tokens).expect("Expected Identifier after `struct`");
consume!(tokens, Token::LBrace);
let mut members = Vec::new();
match tokens.peek().expect("Unexpected EOF after LBrace") {
Token::RBrace(_) => {}, // skip checking for struct_members if empty
_ => {
struct_members(tokens, &mut members);
},
}
consume!(tokens, Token::RBrace);
Declaration::StructDeclaration(StructDeclaration{name, members})
}
fn struct_members(tokens : &mut Peekable<Iter<'_, Token>>, members: &mut Vec<StructMember>) {
members.push(struct_member(tokens).unwrap());
loop {
match tokens.peek().expect("Unexpected EOF inside struct declaration") {
Token::Comma(_) => {
consume!(tokens, Token::Comma);
if let Some(member) = struct_member(tokens) {
members.push(member);
} else {
break;
}
},
_ => {},
}
}
}
fn struct_member(tokens : &mut Peekable<Iter<'_, Token>>) -> Option<StructMember> {
let name = identifier(tokens);
if let Some(name) = name {
consume!(tokens, Token::Colon);
let type_name = identifier(tokens).expect("Expected Type after Colon");
Some(StructMember{name, type_name})
} else {
None
}
}
fn type_declaration(tokens : &mut Peekable<Iter<'_, Token>>) -> Declaration {
consume!(tokens, Token::Type);
let name = identifier(tokens).expect("Expected Identifier after `type`");
let type_name = identifier(tokens).expect("Expected type after Identifier");
Declaration::TypeDeclaration(TypeDeclaration{name, type_name})
}
fn identifier(tokens : &mut Peekable<Iter<'_, Token>>) -> Option<String> {
let result = tokens.peek().map_or(None, |x| match x {
Token::Identifier((_, _, s)) => {
Some(s.to_string())
},
_ => None
});
if let Some(_) = result {
tokens.next();
}
result
}
fn parse_number(tokens : &mut Peekable<Iter<'_, Token>>) -> Option<u64> {
let result = tokens.peek().map_or(None, |x| match x {
Token::Number((_, _, s)) => Some(*s),
_ => None
});
if let Some(_) = result {
tokens.next();
}
result
}
fn protocol_declaration(tokens : &mut Peekable<Iter<'_, Token>>) -> Declaration {
consume!(tokens, Token::Protocol);
let name = identifier(tokens).expect("Expected Identifier after `protocol`");
consume!(tokens, Token::LBrace);
let mut interface = Vec::new();
match tokens.peek().expect("Unexpected EOF after LBrace") {
Token::RBrace(_) => {},
_ => {
functions(tokens, &mut interface);
},
};
Declaration::ProtocolDeclaration(ProtocolDeclaration{name, interface})
}
fn functions(tokens : &mut Peekable<Iter<'_, Token>>, interface : &mut Vec<FuncDeclaration>) {
loop {
match function(tokens) {
Some(x) => interface.push(x),
None => break,
}
}
}
fn function(tokens : &mut Peekable<Iter<'_, Token>>) -> Option<FuncDeclaration>{
if let Some(Token::Fn(_)) = tokens.peek() {
consume!(tokens, Token::Fn);
let name = identifier(tokens).expect("Expected Identifier after `fn`");
consume!(tokens, Token::LParen);
let arg_list = arg_list(tokens);
consume!(tokens, Token::RParen);
consume!(tokens, Token::RArrow);
let return_type = identifier(tokens).expect("Expected return type after `->");
Some(FuncDeclaration{name, arg_list, return_type})
} else {
None
}
}
fn arg_list(tokens : &mut Peekable<Iter<'_, Token>>) -> Vec<String> {
let mut result = Vec::new();
loop {
match identifier(tokens) {
None => break,
Some(i) =>{
result.push(i);
if let Token::Comma(_) = **tokens.peek().expect("Unexpected EOF in argument list"){
consume!(tokens, Token::Comma);
match tokens.peek().expect("Unexpected EOF in argument list") {
Token::Identifier(_) => {},
_ => panic!("Unexpected symbol after Comma in argument list"),
}
}
}
}
}
result
}

View file

@ -1,17 +1,167 @@
pub enum ProtocolTypes {
Byte,
use std::collections::HashMap;
use crate::idl::types::Type;
#[derive(Debug, Clone, PartialEq)]
pub struct Function{
pub arguments : Vec<String>,
}
#[derive(Debug, Clone, PartialEq)]
pub struct Protocol{
interface : HashMap<String, Function>,
}
pub struct Protocol {}
impl Protocol {
pub fn is_empty(&self) -> bool {
true
#[derive(Debug, Clone, PartialEq)]
pub struct Protocols {
protocols : HashMap<String, Protocol>,
symbol_table : HashMap<String, Type>,
}
#[derive(Debug, Clone, PartialEq)]
pub enum ValidationError{
IncorrectVersion,
InvalidHeader,
FunctionDoesNotExist,
ProtocolDoesNotExist,
InvalidSize,
InvalidArgument,
NonExistentType(String),
}
impl Protocols {
pub fn new(symbol_table: HashMap<String, Type>) -> Self {
let protocols = HashMap::new();
Self { protocols, symbol_table }
}
pub fn add_protocol(&mut self, name : String, interface : HashMap<String, Function>) {
self.protocols.insert(name, Protocol::new(interface));
}
pub fn validate_data(&self, data: Vec<u8>) -> bool {
if !data.is_empty() && self.is_empty() {
return false;
pub fn validate(&self, protocol_name : &str, function_name : &str, data : Vec<u8>) -> Result<(), ValidationError>{
match self.protocols.get(protocol_name) {
Some(s) => s.validate(function_name, data, &self.symbol_table),
None => Err(ValidationError::ProtocolDoesNotExist),
}
}
}
impl Protocol {
pub fn new(interface: HashMap<String, Function>) -> Self {
Self {interface}
}
fn validate(&self, function_name : &str, data : Vec<u8>, symbols : &HashMap<String, Type>) -> Result<(), ValidationError> {
match self.interface.get(function_name){
Some(s) => s.validate(data, symbols),
None => Err(ValidationError::FunctionDoesNotExist),
}
true
}
}
impl Function {
fn validate(&self, data : Vec<u8>, symbols : &HashMap<String, Type>) -> Result<(), ValidationError> {
let mut types = Vec::new();
for arg in self.arguments.iter() {
let type_value = symbols.get(arg);
if let Some(type_value) = type_value {
types.push(type_value);
}
else{
return Err(ValidationError::NonExistentType(arg.to_string()));
}
}
let mut data = data.iter();
if let Some(ver) = data.next() {
if *ver == 1 {
// We got the correct version number
// Now to parse individual argumebts
let mut types = types.iter().peekable();
loop {
let type_byte = data.next();
if let Some(type_byte) = type_byte {
let type_value = types.next();
if type_value.is_none() {
return Err(ValidationError::InvalidSize);
}
let type_value = type_value.unwrap();
let data_type = match type_byte {
0 => Some(Type::U64),
1 => Some(Type::U32),
2 => Some(Type::U16),
3 => Some(Type::U8),
4 => Some(Type::I64),
5 => Some(Type::I32),
6 => Some(Type::I16),
7 => Some(Type::I8),
8 => Some(Type::Bool),
9 => Some(Type::F32),
10 => Some(Type::F64),
11 => Some(Type::Str),
_ => None,
};
if data_type.is_none() || data_type.as_ref().unwrap() != *type_value {
println!("{:#?}", *type_value);
return Err(ValidationError::InvalidArgument);
}
match data_type.unwrap(){
Type::U64 | Type::I64 | Type::F64 => {
data.next();
data.next();
data.next();
data.next();
data.next();
data.next();
data.next();
data.next();
},
Type::U32 | Type::I32 | Type::F32 => {
data.next();
data.next();
data.next();
data.next();
},
Type::U16 | Type::I16 => {
data.next();
data.next();
},
Type::U8 | Type::I8 | Type::Bool => {
data.next();
},
Type::Str => todo!(),
_ => panic!("Should not be possible"),
}
} else if types.peek().is_none() {
return Ok(());
}
break;
}
}
else {
return Err(ValidationError::IncorrectVersion);
}
} else {
return Err(ValidationError::InvalidHeader);
}
Ok(())
}
}

98
dev/src/idl/types.rs Normal file
View file

@ -0,0 +1,98 @@
use std::collections::HashMap;
use crate::idl::parser::AST;
use super::protocol::{Function, Protocols};
#[derive(Debug, Clone, PartialEq)]
pub enum Type {
U64,
U32,
U16,
U8,
I64,
I32,
I16,
I8,
Bool,
F32,
F64,
Str,
Struct(StructType),
Enum(EnumType),
Alias(String),
}
#[derive(Debug, Clone, PartialEq)]
pub struct StructType {
members : HashMap<String, String>
}
#[derive(Debug, Clone, PartialEq)]
pub struct EnumType {
members : HashMap<String, u8>
}
fn add_builtin_types(symbol_table : &mut HashMap<String, Type>) {
symbol_table.insert("u8".to_string(), Type::U8);
symbol_table.insert("u16".to_string(), Type::U16);
symbol_table.insert("u32".to_string(), Type::U32);
symbol_table.insert("u64".to_string(), Type::U64);
symbol_table.insert("i8".to_string(), Type::I8);
symbol_table.insert("i16".to_string(), Type::I16);
symbol_table.insert("i32".to_string(), Type::I32);
symbol_table.insert("i64".to_string(), Type::I64);
symbol_table.insert("bool".to_string(), Type::Bool);
symbol_table.insert("f32".to_string(), Type::F32);
symbol_table.insert("f64".to_string(), Type::F64);
}
pub fn get_protocols(ast : AST) -> Protocols{
let mut symbol_table : HashMap<String, Type> = HashMap::new();
let declarations = ast.0;
add_builtin_types(&mut symbol_table);
// First Pass
// We just populate the symbol table here
for decl in declarations.iter() {
match decl{
super::parser::Declaration::EnumDeclaration(e) => {
let mut members = HashMap::new();
for m in e.members.iter(){
members.insert(m.name.to_string(), m.number as u8);
}
symbol_table.insert(e.name.to_string(), Type::Enum(EnumType{members}));
},
super::parser::Declaration::StructDeclaration(s) => {
let mut members = HashMap::new();
for m in s.members.iter() {
members.insert(m.name.to_string(), m.type_name.to_string());
}
symbol_table.insert(s.name.to_string(), Type::Struct(StructType{members}));
},
super::parser::Declaration::TypeDeclaration(t) => {
symbol_table.insert(t.name.to_string(), Type::Alias(t.type_name.to_string()));
},
super::parser::Declaration::ProtocolDeclaration(_) => {},
}
}
let mut protocols = Protocols::new(symbol_table);
for decl in declarations.iter(){
match decl {
super::parser::Declaration::ProtocolDeclaration(p) => {
let mut funcs : HashMap<String, Function> = HashMap::new();
for i in p.interface.iter(){
funcs.insert(i.name.to_string(), Function{arguments : i.arg_list.clone()});
}
protocols.add_protocol(p.name.to_string(), funcs);
},
_ => {}
}
}
protocols
}

View file

@ -57,7 +57,7 @@ pub fn new(development_type: DevelopmentType, name: String) {
let (folder_hierarchy, entry_name) = match development_type {
DevelopmentType::Program => ("programs", "main.hb"),
DevelopmentType::Library => ("libraries", "lib.hb"),
DevelopmentType::IDL => ("idl", "protocol.aidl"),
DevelopmentType::IDL => ("idl", "protocol.aldi"),
};
let project_folder_path_string = format!("sysdata/{folder_hierarchy}/{name}");
@ -72,27 +72,6 @@ pub fn new(development_type: DevelopmentType, name: String) {
let readme_contents = format!("# {}", name);
readme_file.write_all(readme_contents.as_bytes()).unwrap();
let contents = format!(
"[package]
name = \"{}\"
authors = [\"\"]
[dependants.libraries]
[dependants.binaries]
hblang.version = \"1.0.0\"
[build]
command = \"hblang src/main.hb\"
",
name
);
let toml_path_string = format!("{}/meta.toml", project_folder_path_string);
let mut readme_file = std::fs::File::create(toml_path_string.clone()).unwrap();
readme_file.write_all(contents.as_bytes()).unwrap();
let src_folder_path_string = format!("{}/src", project_folder_path_string);
std::fs::create_dir(src_folder_path_string.clone()).unwrap();

View file

@ -1,96 +0,0 @@
{
"nodes": {
"flake-utils": {
"inputs": {
"systems": "systems"
},
"locked": {
"lastModified": 1731533236,
"narHash": "sha256-l0KFg5HjrsfsO/JpG+r7fRrqm12kzFHyUHqHCVpMMbI=",
"owner": "numtide",
"repo": "flake-utils",
"rev": "11707dc2f618dd54ca8739b309ec4fc024de578b",
"type": "github"
},
"original": {
"owner": "numtide",
"repo": "flake-utils",
"type": "github"
}
},
"nixpkgs": {
"locked": {
"lastModified": 1732014248,
"narHash": "sha256-y/MEyuJ5oBWrWAic/14LaIr/u5E0wRVzyYsouYY3W6w=",
"owner": "NixOS",
"repo": "nixpkgs",
"rev": "23e89b7da85c3640bbc2173fe04f4bd114342367",
"type": "github"
},
"original": {
"owner": "NixOS",
"ref": "nixos-unstable",
"repo": "nixpkgs",
"type": "github"
}
},
"nixpkgs_2": {
"locked": {
"lastModified": 1728538411,
"narHash": "sha256-f0SBJz1eZ2yOuKUr5CA9BHULGXVSn6miBuUWdTyhUhU=",
"owner": "NixOS",
"repo": "nixpkgs",
"rev": "b69de56fac8c2b6f8fd27f2eca01dcda8e0a4221",
"type": "github"
},
"original": {
"owner": "NixOS",
"ref": "nixpkgs-unstable",
"repo": "nixpkgs",
"type": "github"
}
},
"root": {
"inputs": {
"flake-utils": "flake-utils",
"nixpkgs": "nixpkgs",
"rust-overlay": "rust-overlay"
}
},
"rust-overlay": {
"inputs": {
"nixpkgs": "nixpkgs_2"
},
"locked": {
"lastModified": 1732328983,
"narHash": "sha256-RHt12f/slrzDpSL7SSkydh8wUE4Nr4r23HlpWywed9E=",
"owner": "oxalica",
"repo": "rust-overlay",
"rev": "ed8aa5b64f7d36d9338eb1d0a3bb60cf52069a72",
"type": "github"
},
"original": {
"owner": "oxalica",
"repo": "rust-overlay",
"type": "github"
}
},
"systems": {
"locked": {
"lastModified": 1681028828,
"narHash": "sha256-Vy1rq5AaRuLzOxct8nz4T6wlgyUR7zLU309k9mBC768=",
"owner": "nix-systems",
"repo": "default",
"rev": "da67096a3b9bf56a91d16901293e51ba5b49a27e",
"type": "github"
},
"original": {
"owner": "nix-systems",
"repo": "default",
"type": "github"
}
}
},
"root": "root",
"version": 7
}

View file

@ -1,30 +0,0 @@
{
description = "A devShell example";
inputs = {
nixpkgs.url = "github:NixOS/nixpkgs/nixos-unstable";
rust-overlay.url = "github:oxalica/rust-overlay";
flake-utils.url = "github:numtide/flake-utils";
};
outputs = { self, nixpkgs, rust-overlay, flake-utils }:
flake-utils.lib.eachDefaultSystem (system:
let
overlays = [ (import rust-overlay) ];
pkgs = import nixpkgs {
inherit system overlays;
};
rustToolchain = pkgs.pkgsBuildHost.rust-bin.fromRustupToolchainFile ./rust-toolchain.toml;
in
with pkgs;
{
devShells.default = mkShell {
buildInputs = [
rustToolchain
qemu_full
];
};
}
);
}

View file

@ -4,3 +4,6 @@ build-std-features = ["compiler-builtins-mem"]
[build]
target = "./targets/x86_64-ableos.json"
[target.'cfg(target_arch = "x86_64")']
rustflags = ["-C", "target-feature=+rdrand"]

View file

@ -3,54 +3,57 @@ edition = "2021"
name = "kernel"
version = "0.2.0"
[features]
ktest = []
[dependencies]
# embedded-graphics = "0.8"
hbvm = { git = "https://git.ablecorp.us/AbleOS/holey-bytes.git", features = [
"nightly",
] }
ktest_macro = { path = "ktest_macro" }
embedded-graphics = "0.7"
hbvm.git = "https://git.ablecorp.us/ableos/holey-bytes"
log = "0.4"
spin = "0.9"
uart_16550 = "0.2"
slab = { version = "0.4", default-features = false }
uart_16550 = { version = "0.3", features = ["nightly"] }
xml.git = "https://git.ablecorp.us/ableos/ableos_userland"
versioning.git = "https://git.ablecorp.us/ableos/ableos_userland"
# able_graphics_library.git = "https://git.ablecorp.us/ableos/ableos_userland"
hashbrown = { version = "0.15", features = ["nightly"] }
limine = "0.1"
able_graphics_library.git = "https://git.ablecorp.us/ableos/ableos_userland"
hashbrown = "*"
kiam = "0.1.1"
[dependencies.limine]
version = "0.1"
git = "https://github.com/limine-bootloader/limine-rs"
[dependencies.crossbeam-queue]
version = "0.3"
default-features = false
features = ["alloc", "nightly"]
features = ["alloc"]
[dependencies.clparse]
git = "https://git.ablecorp.us/ableos/ableos_userland"
default-features = false
[dependencies.derive_more]
version = "1"
version = "0.99"
default-features = false
features = [
"add",
"add_assign",
"constructor",
"display",
"from",
"into",
"mul",
"mul_assign",
"not",
"sum",
"add",
"add_assign",
"constructor",
"display",
"from",
"into",
"mul",
"mul_assign",
"not",
"sum",
]
[target.'cfg(target_arch = "x86_64")'.dependencies]
x86_64 = "0.15"
x86_64 = "0.14"
x2apic = "0.4"
# virtio-drivers = "0.7"
virtio-drivers = "0.4.0"
# rdrand = "*"
rdrand = { version = "0.8", default-features = false }
[target.'cfg(target_arch = "riscv64")'.dependencies]
sbi = "0.2.0"
[target.'cfg(target_arch = "aarch64")'.dependencies]
aarch64-cpu = "9"

View file

@ -1,11 +0,0 @@
[package]
edition = "2021"
name = "ktest_macro"
version = "0.1.0"
[lib]
proc-macro = true
[dependencies]
quote = "1.0.37"
syn = { version = "2.0.89", features = ["full"] }

View file

@ -1,86 +0,0 @@
extern crate proc_macro;
extern crate quote;
extern crate syn;
use {
proc_macro::TokenStream,
quote::quote,
syn::{parse::Parse, parse_macro_input, Expr, ItemFn, Token}
};
struct KtestInput {
lhs: Expr,
_comma: Token![,],
rhs: Expr,
}
impl Parse for KtestInput {
fn parse(input: syn::parse::ParseStream) -> syn::Result<Self> {
Ok(Self {
lhs: input.parse()?,
_comma: input.parse()?,
rhs: input.parse()?,
})
}
}
#[proc_macro]
pub fn ktest_eq(item: TokenStream) -> TokenStream {
let input = parse_macro_input!(item as KtestInput);
let lhs = input.lhs;
let rhs = input.rhs;
let out = quote! {
if #lhs != #rhs {
return Err(name);
}
};
TokenStream::from(out)
}
#[proc_macro]
pub fn ktest_neq(item: TokenStream) -> TokenStream {
let input = parse_macro_input!(item as KtestInput);
let lhs = input.lhs;
let rhs = input.rhs;
let out = quote! {
if #lhs == #rhs {
return Err(name);
}
};
TokenStream::from(out)
}
#[proc_macro_attribute]
pub fn ktest(_attr: TokenStream, item: TokenStream) -> TokenStream {
let input = parse_macro_input!(item as ItemFn);
let test_name = &input.sig.ident;
let test_string = test_name.to_string();
let static_var_name = syn::Ident::new(
&format!("__ktest_{}", test_name).to_uppercase(),
test_name.span(),
);
let block = &input.block;
let out = quote! {
#[cfg(feature = "ktest")]
fn #test_name() -> Result<String, String> {
use crate::alloc::string::ToString;
let name = #test_string.to_string();
#block
return Ok(name);
}
#[cfg(feature = "ktest")]
#[unsafe(link_section = ".note.ktest")]
#[used]
pub static #static_var_name: fn() -> Result<String, String> = #test_name;
};
TokenStream::from(out)
}

View file

@ -6,11 +6,6 @@ SECTIONS
.text.boot : { *(.text.boot) }
.text : { *(.text) }
.data : { *(.data) }
.note.ktest : {
__ktest_start = .;
*(.note.ktest)
__ktest_end = .;
}
.rodata : { *(.rodata) }
.bss : {
*(COMMON)

View file

@ -38,15 +38,7 @@ SECTIONS
.data : {
*(.data .data.*)
*(.got .got.*)
} :data
/* Add the .ktest section for test functions */
.note.ktest : {
__ktest_start = .; /* Mark the beginning of the section */
*(.note.ktest) /* Include all items in the .ktest section */
__ktest_end = .; /* Mark the end of the section */
}
.bss : {
*(COMMON)

View file

@ -1,5 +1,6 @@
use {
crate::{device_tree::DeviceTree, kmain::DEVICE_TREE},
crate::{alloc::string::ToString, device_tree::DeviceTree, kmain::DEVICE_TREE},
alloc::string::String,
core::arch::asm,
xml::XMLElement,
};
@ -27,8 +28,8 @@ fn collect_cpu_info(device_tree: &mut DeviceTree) {
cpus.push(cpu);
}
fn cpu_id<'a>() -> (&'a str, u64) {
let mut cpu_id: u64;
fn cpu_id() -> (String, u64) {
let mut cpu_id: u64 = 0;
unsafe {
asm!("mrs {cpu_id}, MIDR_EL1",
cpu_id = out(reg) cpu_id,
@ -38,11 +39,9 @@ fn cpu_id<'a>() -> (&'a str, u64) {
let cpu_name = match cpu_id {
// the source of these two was a stackoverflow question
// https://raspberrypi.stackexchange.com/questions/117175/how-do-i-read-the-cpuid-in-aarch64-asm
0x410FD034 => "Cortex-A53",
0x410FD083 => "Cortex-A72",
// the source of this one was checking the cpu id :thinking:
0x410FD493 => "Neoverse N2",
_ => "Unknown",
0x410FD034 => "Cortex-A53".to_string(),
0x410FD083 => "Cortex-A72".to_string(),
_ => "Unknown".to_string(),
};
log::trace!("CPU Name: {cpu_name} - CPU ID: 0x{:X}", cpu_id);

View file

@ -1,9 +1,9 @@
use {crate::logger::TERMINAL_LOGGER, core::fmt::Write, spin::Mutex};
pub static SERIAL_CONSOLE: Mutex<SerialConsole> = Mutex::new(SerialConsole {
const SERIAL_CONSOLE: Mutex<SerialConsole> = Mutex::new(SerialConsole {
uart: 0x09000000 as *mut u8,
});
pub struct SerialConsole {
struct SerialConsole {
uart: *mut u8,
}
@ -17,12 +17,9 @@ impl core::fmt::Write for SerialConsole {
}
}
unsafe impl Sync for SerialConsole {}
unsafe impl Send for SerialConsole {}
pub fn log(args: core::fmt::Arguments<'_>) -> core::fmt::Result {
SERIAL_CONSOLE.lock().write_fmt(args)?;
// TERMINAL_LOGGER.lock().write_fmt(args)?;
TERMINAL_LOGGER.lock().write_fmt(args)?;
Ok(())
}

View file

@ -1,7 +1,6 @@
pub use logging::log;
use {
crate::{allocator, bootmodules::BootModule, kmain::kmain},
alloc::vec::Vec,
core::arch::asm,
limine::FramebufferRequest,
};
@ -42,7 +41,7 @@ unsafe extern "C" fn _kernel_start() -> ! {
static KFILE_REQ: KernelFileRequest = KernelFileRequest::new(0);
static MOD_REQ: ModuleRequest = ModuleRequest::new(0);
let mut bootmodules = Vec::new();
let mut bootmodules = alloc::vec::Vec::new();
if bm.is_some() {
let bm = bm.unwrap();
@ -53,13 +52,18 @@ unsafe extern "C" fn _kernel_start() -> ! {
let raw_bytes = core::slice::from_raw_parts(
file.base.as_ptr().expect("invalid initrd"),
file.length as usize,
);
)
.to_vec();
let file_path = file.path.to_str().unwrap().to_str();
let file_path = alloc::string::String::from_utf8(
file.path.to_str().unwrap().to_bytes().to_vec(),
);
if file_path.is_err() {
panic!("invalid file path: {:?}", file_path);
}
let file_cmd = file.cmdline.to_str().unwrap().to_str();
let file_cmd = alloc::string::String::from_utf8(
file.cmdline.to_str().unwrap().to_bytes().to_vec(),
);
if file_cmd.is_err() {
panic!("invalid module cmd: {:?}", file_cmd);
}
@ -81,7 +85,7 @@ unsafe extern "C" fn _kernel_start() -> ! {
assert_eq!(bm.module_count, bootmodules.len() as u64);
}
kmain(
crate::kmain::kmain(
KFILE_REQ
.get_response()
.get()
@ -95,6 +99,8 @@ unsafe extern "C" fn _kernel_start() -> ! {
.unwrap_or_default(),
bootmodules,
);
spin_loop();
}
pub fn spin_loop() -> ! {
@ -103,19 +109,8 @@ pub fn spin_loop() -> ! {
}
}
/// I am sorry.
static mut A_REAL_RANDOM_U64_I_PROMISE: u64 = 0;
pub fn hardware_random_u64() -> u64 {
if let Some(rng) = aarch64_cpu::asm::random::ArmRng::new() {
if let Some(rnd) = rng.rndr() {
return rnd;
}
}
unsafe {
A_REAL_RANDOM_U64_I_PROMISE += 1;
A_REAL_RANDOM_U64_I_PROMISE
}
0
}
pub fn register_dump() {}

View file

@ -14,29 +14,3 @@ arch_cond!(
riscv64: "riscv64",
x86_64: "x86_64",
);
#[cfg(target_arch = "x86_64")]
use {crate::arch::interrupts::Interrupt, alloc::string::String};
#[cfg(target_arch = "x86_64")]
pub struct InterruptList {
list: HashMap<Interrupt, String>,
}
#[cfg(target_arch = "x86_64")]
use hashbrown::HashMap;
#[cfg(target_arch = "x86_64")]
impl InterruptList {
pub fn new() -> Self {
Self {
list: HashMap::new(),
}
}
}
#[cfg(target_arch = "x86_64")]
use spin::{Lazy, Mutex};
#[cfg(target_arch = "x86_64")]
pub static INTERRUPT_LIST: Lazy<Mutex<InterruptList>> = Lazy::new(|| {
let mut il = InterruptList::new();
use crate::alloc::string::ToString;
il.list.insert(Interrupt::Timer, "PS/2 Mouse".to_string());
Mutex::new(il)
});

View file

@ -1,10 +1,8 @@
use core::num;
use {
crate::memory::{MemoryManager, PhysicalAddress, VirtualAddress},
alloc::boxed::Box,
spin::{Mutex, Once},
};
use alloc::boxed::Box;
use spin::{Mutex, Once};
use crate::memory::{MemoryManager, PhysicalAddress, VirtualAddress};
use super::PAGE_SIZE;
@ -30,7 +28,7 @@ impl PageSize {
}
pub struct PageTable {
entries: [PageEntry; 512],
entries: [PageEntry; 512]
}
impl PageTable {
@ -74,14 +72,8 @@ impl PageTable {
/// flags MUST include one or more of the following:
/// Read, Write, Execute
/// The valid bit automatically gets added
pub fn map(
&mut self,
vaddr: VirtualAddress,
paddr: PhysicalAddress,
flags: PageEntryFlags,
page_size: PageSize,
) {
assert!(flags as usize & 0xE != 0);
pub fn map(&mut self, vaddr: VirtualAddress, paddr: PhysicalAddress, flags: PageEntryFlags, page_size: PageSize) {
assert!(flags as usize & 0xe != 0);
let vpn = vaddr.vpns();
let ppn = paddr.ppns();
@ -99,7 +91,7 @@ impl PageTable {
}
let entry = v.addr().as_mut_ptr::<PageEntry>();
v = unsafe { entry.add(vpn[i]).as_mut().unwrap() };
v = unsafe { entry.add(vpn[i]).as_mut().unwrap() };
}
// When we get here, we should be at VPN[0] and v should be pointing to our entry.
@ -113,24 +105,14 @@ impl PageTable {
}
/// Identity maps a page of memory
pub fn identity_map(
&mut self,
addr: PhysicalAddress,
flags: PageEntryFlags,
page_size: PageSize,
) {
pub fn identity_map(&mut self, addr: PhysicalAddress, flags: PageEntryFlags, page_size: PageSize) {
// log::debug!("identity mapped {addr}");
self.map(addr.as_addr().into(), addr, flags, page_size);
}
/// Identity maps a range of contiguous memory
/// This assumes that start <= end
pub fn identity_map_range(
&mut self,
start: PhysicalAddress,
end: PhysicalAddress,
flags: PageEntryFlags,
) {
pub fn identity_map_range(&mut self, start: PhysicalAddress, end: PhysicalAddress, flags: PageEntryFlags) {
log::debug!("start: {start}, end: {end}");
let mut mem_addr = start.as_addr() & !(PAGE_SIZE - 1);
let num_pages = (align_val(end.as_addr(), 12) - mem_addr - 1) / PAGE_SIZE + 1;
@ -160,7 +142,7 @@ impl PageTable {
}
let entry = v.addr().as_mut_ptr::<PageEntry>();
v = unsafe { entry.add(vpn[i]).as_mut().unwrap() };
v = unsafe { entry.add(vpn[i]).as_mut().unwrap() };
}
// If we're here this is an unmapped page
@ -200,7 +182,7 @@ pub enum PageEntryFlags {
Global = 1 << 5,
Access = 1 << 6,
Dirty = 1 << 7,
// for convenience
ReadWrite = Self::Read as usize | Self::Write as usize,
ReadExecute = Self::Read as usize | Self::Execute as usize,
@ -246,7 +228,7 @@ impl PageEntry {
}
fn addr(&self) -> PhysicalAddress {
((self.entry() as usize & !0x3FF) << 2).into()
((self.entry() as usize & !0x3ff) << 2).into()
}
fn destroy(&mut self) {

View file

@ -1,7 +1,7 @@
mod memory;
use {
alloc::{boxed::Box, vec::Vec},
alloc::boxed::Box,
core::{
arch::{asm, global_asm},
fmt::Write,
@ -45,7 +45,7 @@ extern "C" {
static USABLE_MEMORY_SIZE: usize;
}
pub static SERIAL_CONSOLE: Once<Mutex<MmioSerialPort>> = Once::new();
static SERIAL_CONSOLE: Once<Mutex<MmioSerialPort>> = Once::new();
#[no_mangle]
unsafe extern "C" fn _kernel_start() -> ! {
@ -95,7 +95,7 @@ unsafe extern "C" fn _kernel_start() -> ! {
in(reg) satp_value,
);
crate::kmain::kmain("baka=9", Vec::new());
crate::kmain::kmain("baka=9", None);
}
/// Spin loop
@ -105,12 +105,6 @@ pub fn spin_loop() -> ! {
}
}
pub fn hardware_random_u64() -> u64 {
0
}
pub fn register_dump() {}
pub fn log(args: core::fmt::Arguments<'_>) -> core::fmt::Result {
SERIAL_CONSOLE.get().unwrap().lock().write_fmt(args)
}

View file

@ -11,9 +11,6 @@ use {
pub const DOUBLE_FAULT_IX: u16 = 0;
const STACK_SIZE: usize = 5 * 1024;
const STACK_ALIGNMENT: usize = 1;
pub unsafe fn init() {
use x86_64::instructions::{
segmentation::{Segment, CS, SS},
@ -35,24 +32,24 @@ struct Selectors {
static TSS: Lazy<TaskStateSegment> = Lazy::new(|| {
let mut tss = TaskStateSegment::new();
let stack_ptr = unsafe {
let layout = alloc::alloc::Layout::from_size_align(STACK_SIZE, STACK_ALIGNMENT)
.expect("Failed to create stack layout");
let stack = alloc::alloc::alloc(layout);
VirtAddr::from_ptr(stack) + STACK_SIZE as u64
tss.interrupt_stack_table[usize::from(DOUBLE_FAULT_IX)] = {
const SIZE: usize = 5 * 1024;
let stack = unsafe {
alloc::alloc::alloc_zeroed(
alloc::alloc::Layout::from_size_align(SIZE, 1).expect("stack pointer"),
)
};
VirtAddr::from_ptr(stack) + SIZE
};
tss.interrupt_stack_table[usize::from(DOUBLE_FAULT_IX)] = stack_ptr;
tss
});
static GDT: Lazy<(GlobalDescriptorTable, Selectors)> = Lazy::new(|| {
let mut gdt = GlobalDescriptorTable::new();
let sels = Selectors {
kcode: gdt.append(Descriptor::kernel_code_segment()),
kdata: gdt.append(Descriptor::kernel_data_segment()),
tss: gdt.append(Descriptor::tss_segment(&TSS)),
kcode: gdt.add_entry(Descriptor::kernel_code_segment()),
kdata: gdt.add_entry(Descriptor::kernel_data_segment()),
tss: gdt.add_entry(Descriptor::tss_segment(&TSS)),
};
(gdt, sels)
});

View file

@ -1,54 +1,56 @@
// TODO: Turn apic keyboard interrupt into a standard ipc message
use {
core::mem::MaybeUninit,
log::trace,
spin::{Lazy, Mutex},
x2apic::lapic::{LocalApic, LocalApicBuilder},
x86_64::structures::idt::{InterruptDescriptorTable, InterruptStackFrame, PageFaultErrorCode},
};
/// Safety: Using LAPIC or IDT before init() is UB
/// Using
static mut LAPIC: LocalApic = unsafe { MaybeUninit::zeroed().assume_init() };
static mut IDT: InterruptDescriptorTable = unsafe { MaybeUninit::zeroed().assume_init() };
pub unsafe fn init() {
trace!("Initialising IDT");
IDT.load();
Lazy::force(&LAPIC);
x86_64::instructions::interrupts::enable();
}
#[repr(u8)]
#[derive(Debug, Eq, Hash, PartialEq)]
pub enum Interrupt {
enum Interrupt {
Timer = 32,
ApicErr = u8::MAX - 1,
Spurious = u8::MAX,
}
pub unsafe fn init() {
trace!("Initializing IDT and LAPIC");
// Initialize and load the IDT
IDT = InterruptDescriptorTable::new();
IDT.double_fault
.set_handler_fn(double_fault)
.set_stack_index(super::gdt::DOUBLE_FAULT_IX);
IDT.page_fault.set_handler_fn(page_fault);
IDT[Interrupt::ApicErr as u8].set_handler_fn(apic_err);
IDT[Interrupt::Spurious as u8].set_handler_fn(spurious);
IDT[Interrupt::Timer as u8].set_handler_fn(timer);
IDT.load();
LAPIC = LocalApicBuilder::new()
pub(crate) static LAPIC: Lazy<Mutex<LocalApic>> = Lazy::new(|| {
let mut lapic = LocalApicBuilder::new()
.timer_vector(Interrupt::Timer as usize)
.error_vector(Interrupt::ApicErr as usize)
.spurious_vector(Interrupt::Spurious as usize)
.set_xapic_base(
x2apic::lapic::xapic_base()
unsafe { x2apic::lapic::xapic_base() }
+ super::memory::HHDM_OFFSET.load(core::sync::atomic::Ordering::Relaxed),
)
.build()
.expect("Failed to setup Local APIC");
LAPIC.enable();
.expect("failed to setup Local APIC");
unsafe { lapic.enable() };
Mutex::new(lapic)
});
x86_64::instructions::interrupts::enable();
}
static IDT: Lazy<InterruptDescriptorTable> = Lazy::new(|| {
let mut idt = InterruptDescriptorTable::new();
unsafe {
idt.double_fault
.set_handler_fn(double_fault)
.set_stack_index(super::gdt::DOUBLE_FAULT_IX);
}
idt.page_fault.set_handler_fn(page_fault);
idt[Interrupt::ApicErr as usize].set_handler_fn(apic_err);
idt[Interrupt::Spurious as usize].set_handler_fn(spurious);
idt[Interrupt::Timer as usize].set_handler_fn(timer);
idt
});
extern "x86-interrupt" fn double_fault(stack_frame: InterruptStackFrame, error_code: u64) -> ! {
panic!("Double fault: error code {error_code} \n{stack_frame:#?}")
@ -62,52 +64,13 @@ extern "x86-interrupt" fn page_fault(
}
extern "x86-interrupt" fn timer(_isf: InterruptStackFrame) {
interrupt(Interrupt::Timer);
unsafe {
LAPIC.end_of_interrupt();
}
unsafe { LAPIC.lock().end_of_interrupt() };
}
extern "x86-interrupt" fn apic_err(_: InterruptStackFrame) {
interrupt(Interrupt::ApicErr);
panic!("Internal APIC error");
}
extern "x86-interrupt" fn spurious(_: InterruptStackFrame) {
interrupt(Interrupt::Spurious);
unsafe {
LAPIC.end_of_interrupt();
}
}
#[allow(unused_imports)]
fn interrupt(interrupt_type: Interrupt) {
use crate::{arch::INTERRUPT_LIST, kmain::EXECUTOR};
// let il = INTERRUPT_LIST.lock();
// let val = il.list.get(&interrupt_type).unwrap();
// use crate::holeybytes::kernel_services::service_definition_service::sds_search_service;
// let buffer = sds_search_service(val);
// if buffer != 0 {
// use {crate::kmain::IPC_BUFFERS, alloc::vec::Vec};
// let mut buffs = IPC_BUFFERS.lock();
// match buffs.get_mut(&buffer) {
// Some(buff) => {
// let mut msg_vec = Vec::new();
// msg_vec.push(0xFF);
// buff.push(msg_vec.to_vec());
// log::debug!("Sent Message {:?} to Buffer({})", msg_vec, buffer);
// }
// None => {
// log::error!("Access of non-existent buffer {}", buffer)
// }
// }
// }
unsafe {
EXECUTOR.send_interrupt(interrupt_type as u8);
}
unsafe { LAPIC.lock().end_of_interrupt() };
}

View file

@ -1,6 +1,11 @@
//! Logging (as in terms of console / serial output)
#![allow(deprecated)]
use {core::fmt::Write, spin::Mutex, uart_16550::SerialPort};
use {
core::fmt::Write,
limine::{TerminalRequest, TerminalResponse},
spin::{Lazy, Mutex},
uart_16550::SerialPort,
};
pub static SERIAL_CONSOLE: Mutex<SerialPort> = Mutex::new(unsafe { SerialPort::new(0x3F8) });

View file

@ -1,6 +1,7 @@
use core::arch::x86_64::{_rdrand64_step, _rdseed64_step};
use {crate::bootmodules::BootModule, core::arch::asm, log::warn};
use {
crate::bootmodules::BootModule, core::arch::asm, embedded_graphics::pixelcolor::Rgb888,
log::warn, rdrand::RdSeed,
};
pub mod memory;
mod cpuid;
@ -10,7 +11,7 @@ pub mod graphics;
pub(crate) mod interrupts;
pub mod logging;
pub mod pci;
// pub mod virtio;
pub mod virtio;
pub use {logging::log, memory::PAGE_SIZE};
@ -30,11 +31,9 @@ const INITIAL_KERNEL_HEAP_SIZE: *const () = _initial_kernel_heap_size as _;
#[no_mangle]
#[naked]
#[cfg(not(target_feature = "avx2"))]
unsafe extern "C" fn _kernel_start() -> ! {
// Initialise SSE, then jump to kernel entrypoint
core::arch::naked_asm!(
// Initialise SSE
// Initialise SSE and jump to kernel entrypoint
core::arch::asm!(
"mov rax, cr0",
"and ax, 0xfffb",
"or ax, 0x2",
@ -42,74 +41,16 @@ unsafe extern "C" fn _kernel_start() -> ! {
"mov rax, cr4",
"or ax, 3 << 9",
"mov cr4, rax",
// Jump to the kernel entry point
"jmp {}",
sym start,
options(noreturn),
)
}
#[no_mangle]
#[naked]
#[cfg(target_feature = "avx2")]
unsafe extern "C" fn _kernel_start() -> ! {
core::arch::naked_asm!(
// Enable protected mode and configure control registers
"mov rax, cr0",
"and ax, 0xFFFB", // Clear CR0.EM (bit 2) for coprocessor emulation
"or ax, 0x2", // Set CR0.MP (bit 1) for coprocessor monitoring
"mov cr0, rax",
"mov rax, cr4",
"or ax, (1 << 9) | (1 << 10)", // Set CR4.OSFXSR (bit 9) and CR4.OSXMMEXCPT (bit 10)
"mov cr4, rax",
// Enable OSXSAVE (required for AVX, AVX2, and XSAVE)
"mov rax, cr4",
"or eax, 1 << 18", // Set CR4.OSXSAVE (bit 18)
"mov cr4, rax",
// Enable AVX and AVX2 state saving
"xor rcx, rcx",
"xgetbv",
"or eax, 7", // Enable SSE, AVX, and AVX2 state saving
"xsetbv",
// Check for AVX and XSAVE support
"mov eax, 1",
"cpuid",
"and ecx, 0x18000000",
"cmp ecx, 0x18000000",
"jne {1}", // Jump if AVX/OSXSAVE is not supported
// Check for BMI2 and AVX2 support
"mov eax, 7",
"xor ecx, ecx",
"cpuid",
"and ebx, (1 << 8) | (1 << 5)", // Check BMI2 (bit 8) and AVX2 (bit 5)
"cmp ebx, (1 << 8) | (1 << 5)", // Compare to ensure both are supported
// Check for LZCNT and POPCNT support
"mov eax, 1",
"cpuid",
"and ecx, (1 << 5) | (1 << 23)", // Check LZCNT (bit 5) and POPCNT (bit 23)
"cmp ecx, (1 << 5) | (1 << 23)", // Compare to ensure both are supported
// Jump to the kernel entry point
"jmp {0}",
sym start,
sym oops,
)
}
unsafe extern "C" fn oops() -> ! {
panic!("your cpu is ancient >:(")
}
unsafe extern "C" fn start() -> ! {
logging::init();
crate::logger::init().expect("failed to set logger");
log::debug!("Initialising AKern {}", crate::VERSION);
log::info!("Initialising AKern {}", crate::VERSION);
static HDHM_REQ: HhdmRequest = HhdmRequest::new(0);
memory::init_pt(VirtAddr::new(
@ -188,7 +129,7 @@ unsafe extern "C" fn start() -> ! {
// TODO: Add in rdseed and rdrand as sources for randomness
let _rand = xml::XMLElement::new("Random");
log::debug!("Getting boot modules");
log::trace!("Getting boot modules");
let bm = MOD_REQ.get_response().get();
let mut bootmodules = alloc::vec::Vec::new();
@ -202,13 +143,18 @@ unsafe extern "C" fn start() -> ! {
let raw_bytes = core::slice::from_raw_parts(
file.base.as_ptr().expect("invalid initrd"),
file.length as usize,
);
)
.to_vec();
let file_path = file.path.to_str().unwrap().to_str();
let file_path = alloc::string::String::from_utf8(
file.path.to_str().unwrap().to_bytes().to_vec(),
);
if file_path.is_err() {
panic!("invalid file path: {:?}", file_path);
}
let file_cmd = file.cmdline.to_str().unwrap().to_str();
let file_cmd = alloc::string::String::from_utf8(
file.cmdline.to_str().unwrap().to_bytes().to_vec(),
);
if file_cmd.is_err() {
panic!("invalid module cmd: {:?}", file_cmd);
}
@ -226,7 +172,7 @@ unsafe extern "C" fn start() -> ! {
break;
}
}
log::debug!("Boot module count: {:?}", bootmodules.len());
log::info!("Boot module count: {:?}", bootmodules.len());
assert_eq!(bm.module_count, bootmodules.len() as u64);
}
@ -249,21 +195,32 @@ unsafe extern "C" fn start() -> ! {
/// Spin loop
pub fn spin_loop() -> ! {
loop {
core::hint::spin_loop();
x86_64::instructions::hlt()
x86_64::instructions::hlt();
}
}
pub fn hardware_random_u64() -> u64 {
let mut out: u64 = 0;
match unsafe { _rdrand64_step(&mut out) } {
1 => out,
_ => {
use {log::trace, rdrand::RdRand};
let gen = RdRand::new();
match gen {
Ok(gen) => {
let ret = gen.try_next_u64().unwrap();
trace!("Random {}", ret);
return ret;
}
Err(err) => {
warn!("RDRand not supported.");
// Try rdseed
match unsafe { _rdseed64_step(&mut out) } {
1 => out,
_ => panic!("Neither RDRand or RDSeed are supported"),
let gen = RdSeed::new();
match gen {
Ok(gen) => {
let ret = gen.try_next_u64().unwrap();
trace!("Random {}", ret);
return ret;
}
Err(err) => {
panic!("Neither RDRand or RDSeed are supported")
}
}
}
}
@ -271,7 +228,6 @@ pub fn hardware_random_u64() -> u64 {
pub fn get_edid() {}
#[allow(unused)]
pub fn register_dump() {
let rax: u64;
let rbx: u64 = 0;

View file

@ -8,12 +8,12 @@ pub struct PciDeviceInfo {
pub full_class: PciFullClass,
pub rev_id: u8,
}
use crate::alloc::string::ToString;
/// Enumerate PCI devices and run initialisation routines on ones we support
pub fn init(device_tree: &mut DeviceTree) {
device_tree
.devices
.insert("Unidentified PCI", alloc::vec![]);
device_tree.devices
.insert("Unidentified PCI".to_string(), alloc::vec![]);
let mut devices = alloc::vec![];
for bus in 0..=255 {
@ -23,7 +23,6 @@ pub fn init(device_tree: &mut DeviceTree) {
let id = device_info.device_id.id;
use Vendor::*;
let (dev_type, dev_name) = match (vendor, id) {
(VMWareInc, 1029) => ("GPUs", "SVGAII PCI GPU"),
(Qemu, 4369) => ("GPUs", "QEMU VGA"),
(VirtIO, 4176) => ("GPUs", "VirtIO PCI GPU"),
(CirrusLogic, 184) => ("GPUs", "Cirrus SVGA"), //GD 5446?
@ -46,8 +45,7 @@ pub fn init(device_tree: &mut DeviceTree) {
pci_info.set_attribute("id", id);
pci_info.set_attribute("device", device_info.device);
pci_info.set_attribute("vendor", vendor);
pci_info.set_attribute("bus", bus);
pci_info.set_attribute("class", device_info.full_class);
pci_info.set_attribute("class", device_info.full_class.to_string());
dev.set_child(pci_info);
devices.push((dev_type, dev));
}
@ -68,8 +66,7 @@ pub fn check_device(bus: u8, device: u8) -> Option<PciDeviceInfo> {
return None;
}
let (reg2, addr) = unsafe { pci_config_read_2(bus, device, 0, 0x8) };
log::debug!("pci device-({}) addr {} is {}", device, addr, reg2);
let reg2 = unsafe { pci_config_read(bus, device, 0, 0x8) };
let class = ((reg2 >> 16) & 0x0000_FFFF) as u16;
let pci_class = PciFullClass::from_u16(class);
let header_type = get_header_type(bus, device, 0);
@ -272,7 +269,8 @@ impl Display for Vendor {
use core::fmt::Display;
use {crate::device_tree::DeviceTree, x86_64::instructions::port::Port};
use x86_64::instructions::port::Port;
use crate::device_tree::DeviceTree;
#[allow(non_camel_case_types, dead_code)]
#[derive(Debug, Clone, Copy, PartialEq)]
@ -460,7 +458,9 @@ unsafe fn pci_config_read(bus: u8, device: u8, func: u8, offset: u8) -> u32 {
let func = func as u32;
let offset = offset as u32;
// construct address param
let address = (bus << 16) | (device << 11) | (func << 8) | (offset & 0xFC) | 0x8000_0000;
let address =
((bus << 16) | (device << 11) | (func << 8) | (offset & 0xFC) | 0x8000_0000) as u32;
// write address
Port::new(0xCF8).write(address);
@ -468,20 +468,6 @@ unsafe fn pci_config_read(bus: u8, device: u8, func: u8, offset: u8) -> u32 {
Port::new(0xCFC).read()
}
unsafe fn pci_config_read_2(bus: u8, device: u8, func: u8, offset: u8) -> (u32, u32) {
let bus = bus as u32;
let device = device as u32;
let func = func as u32;
let offset = offset as u32;
// construct address param
let address = (bus << 16) | (device << 11) | (func << 8) | (offset & 0xFC) | 0x8000_0000;
// write address
Port::new(0xCF8).write(address);
// read data
(Port::new(0xCFC).read(), address)
}
unsafe fn pci_config_write(bus: u8, device: u8, func: u8, offset: u8, value: u32) {
let bus = bus as u32;
let device = device as u32;

View file

@ -1,5 +1,5 @@
use {
core::ptr::NonNull,
core::{ptr::NonNull},
virtio_drivers::{BufferDirection, Hal, PhysAddr},
};

View file

@ -1,36 +1,36 @@
use {
// crate::alloc::string::ToString,
alloc::vec::Vec,
// clparse::Arguments,
// core::fmt::{Debug, Display},
// log::trace,
// xml::XMLElement,
crate::alloc::string::ToString,
alloc::{string::String, vec::Vec},
clparse::Arguments,
core::fmt::{Debug, Display},
log::trace,
xml::XMLElement,
};
pub type BootModules<'a> = Vec<BootModule<'a>>;
pub type BootModules = Vec<BootModule>;
pub struct BootModule<'a> {
pub path: &'a str,
pub bytes: &'a [u8],
pub cmd: &'a str,
pub struct BootModule {
pub path: String,
pub bytes: Vec<u8>,
pub cmd: String,
}
impl<'a> BootModule<'a> {
pub fn new(path: &'a str, bytes: &'a [u8], cmd: &'a str) -> Self {
impl BootModule {
pub fn new(path: String, bytes: Vec<u8>, cmd: String) -> Self {
Self { path, bytes, cmd }
}
}
// pub fn build_cmd<T: Display + Debug>(name: T, cmdline: T) -> XMLElement {
// let mut cmdline = cmdline.to_string();
// cmdline.pop();
// cmdline.remove(0);
pub fn build_cmd<T: Display + Debug>(name: T, cmdline: T) -> XMLElement {
let mut cmdline = cmdline.to_string();
cmdline.pop();
cmdline.remove(0);
// let cmd = Arguments::parse(cmdline.to_string()).unwrap();
// trace!("Cmdline: {cmd:?}");
let cmd = Arguments::parse(cmdline.to_string()).unwrap();
trace!("Cmdline: {cmd:?}");
// let mut clo = XMLElement::new(name);
// for (key, value) in cmd.arguments {
// clo.set_attribute(key, value);
// }
// trace!("command line object: {:?}", clo);
// clo
// }
let mut clo = XMLElement::new(name);
for (key, value) in cmd.arguments {
clo.set_attribute(key, value);
}
trace!("command line object: {:?}", clo);
clo
}

View file

@ -1,7 +1,11 @@
//! A tree of hardware devices
use {alloc::vec::Vec, core::fmt, hashbrown::HashMap};
use {
crate::alloc::string::ToString,
alloc::{string::String, vec::Vec},
core::fmt,
hashbrown::HashMap,
};
/// A device object.
/// TODO define device
pub type Device = xml::XMLElement;
@ -9,40 +13,38 @@ pub type Device = xml::XMLElement;
/// A tree of devices
// TODO: alphabetize this list
#[derive(Debug)]
pub struct DeviceTree<'a> {
pub struct DeviceTree {
/// The device tree
pub devices: HashMap<&'a str, Vec<Device>>,
pub devices: HashMap<String, Vec<Device>>,
}
impl<'a> DeviceTree<'a> {
impl DeviceTree {
/// Build the device tree. Does not populate the device tree
pub fn new() -> Self {
let mut dt = Self {
devices: HashMap::new(),
};
device_tree!(
dt,
[
"Mice",
"Keyboards",
"Controllers",
"Generic HIDs",
"Disk Drives",
"CD Drives",
"Batteries",
"Monitors",
"GPUs",
"CPUs",
"USB",
"Serial Ports",
"Cameras",
"Biometric Devices",
]
);
device_tree!(dt, [
"Mice",
"Keyboards",
"Controllers",
"Generic HIDs",
"Disk Drives",
"CD Drives",
"Batteries",
"Monitors",
"GPUs",
"CPUs",
"USB",
"Serial Ports",
"Cameras",
"Biometric Devices",
]);
dt
}
}
use crate::{device_tree, tab, utils::TAB};
impl<'a> fmt::Display for DeviceTree<'a> {
use crate::{utils::TAB, device_tree};
use crate::tab;
impl fmt::Display for DeviceTree {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
writeln!(f)?;
for (device_type, devices) in &self.devices {

View file

@ -1,35 +0,0 @@
enum Sections {
Header,
Code,
Data,
Debug,
Config,
Metadata,
}
// 64 byte header
#[repr(packed)]
struct AbleOsExecutableHeader {
magic_number: [u8; 3],
executable_version: u32,
code_length: u64,
data_length: u64,
debug_length: u64,
config_length: u64,
metadata_length: u64,
}
impl AbleOsExecutableHeader {
fn new() -> Self {
Self {
magic_number: [0x15, 0x91, 0xD2],
executable_version: 0,
code_length: 0,
config_length: 0,
data_length: 0,
debug_length: 0,
metadata_length: 0,
}
}
}

View file

@ -1,41 +1,28 @@
//! Environment call handling routines
use {alloc::boxed::Box, core::cell::LazyCell, hbvm::mem::Address};
use core::borrow::Borrow;
use crate::{
holeybytes::{
kernel_services::{
block_read, dt_msg_handler::dt_msg_handler, logging_service::log_msg_handler,
service_definition_service::sds_msg_handler,
},
ExecThread,
allocator,
holeybytes::kernel_services::{
block_read,
service_definition_service::{sds_msg_handler, SERVICES},
},
kmain::EXECUTOR,
task::Executor,
};
use {
super::Vm,
crate::{arch, ipc::buffer::IpcBuffer, kmain::IPC_BUFFERS},
hbvm::value::Value,
log::{debug, error, info, trace},
super::{mem::Memory, Vm},
crate::{arch, holeybytes::mem, ipc::buffer::IpcBuffer, kmain::IPC_BUFFERS},
alloc::string::String,
log::{debug, error, info, trace, warn},
};
#[cfg(target_arch = "x86_64")]
#[inline(always)]
unsafe fn x86_out<T: x86_64::instructions::port::PortWrite>(address: u16, value: T) {
x86_64::instructions::port::Port::new(address).write(value);
}
#[cfg(target_arch = "x86_64")]
#[inline(always)]
unsafe fn x86_in<T: x86_64::instructions::port::PortRead>(address: u16) -> T {
x86_64::instructions::port::Port::new(address).read()
}
#[inline(always)]
pub fn handler(vm: &mut Vm, pid: &usize) {
pub fn handler(vm: &mut Vm) {
let ecall_number = vm.registers[2].cast::<u64>();
// debug!("Ecall number {:?}", ecall_number);
//info!("Register dump: {:?}", vm.registers);
match ecall_number {
0 => {
// TODO: explode computer
@ -47,9 +34,9 @@ pub fn handler(vm: &mut Vm, pid: &usize) {
1 => {
// Make buffer
let bounded = match vm.registers[3] {
Value(0) => false,
Value(1) => true,
let bounded = match vm.registers[3].cast::<u64>() {
0 => false,
1 => true,
_ => {
panic!("Bad");
}
@ -58,19 +45,22 @@ pub fn handler(vm: &mut Vm, pid: &usize) {
let length = vm.registers[4].cast::<u64>();
let mut buffs = IPC_BUFFERS.lock();
let abc;
match bounded {
false => {
abc = IpcBuffer::new(false, 0);
}
true => {
abc = IpcBuffer::new(true, length);
}
};
let buff_id = arch::hardware_random_u64();
buffs.insert(
buff_id,
match bounded {
false => IpcBuffer::new(false, 0),
true => IpcBuffer::new(true, length),
},
);
buffs.insert(buff_id, abc);
info!("Buffer ID: {}", buff_id);
vm.registers[1] = hbvm::value::Value(buff_id);
}
2 => {
log::error!("Oops, deleting buffers is not implemented.")
// Delete buffer
}
3 => {
@ -79,19 +69,16 @@ pub fn handler(vm: &mut Vm, pid: &usize) {
let mem_addr = vm.registers[4].cast::<u64>();
let length = vm.registers[5].cast::<u64>() as usize;
trace!("IPC address: {:?}", mem_addr);
unsafe { LazyCell::<Executor>::get_mut(&mut EXECUTOR) }
.unwrap()
.send_buffer(buffer_id as usize);
use alloc::vec::Vec;
match buffer_id {
0 => match sds_msg_handler(vm, mem_addr, length) {
Ok(()) => {}
Err(err) => log::error!("Improper sds format: {err:?}"),
Err(err) => log::error!("Improper sds format"),
},
1 => match log_msg_handler(vm, mem_addr, length) {
Ok(()) => {}
Err(_) => log::error!("Improper log format"),
Err(err) => log::error!("Improper log format"),
},
2 => {
use crate::holeybytes::kernel_services::mem_serve::memory_msg_handler;
@ -99,183 +86,173 @@ pub fn handler(vm: &mut Vm, pid: &usize) {
Ok(_) => {}
Err(_) => {}
}
//
}
#[cfg(target_arch = "x86_64")]
3 => {
let msg_vec = block_read(mem_addr, length);
let msg_type = msg_vec[0];
match msg_type {
0 => unsafe {
let size = msg_vec[1];
let addr =
u16::from_le_bytes(msg_vec[2..4].try_into().unwrap_unchecked());
let value = match size {
0 => x86_in::<u8>(addr) as u64,
1 => x86_in::<u16>(addr) as u64,
2 => x86_in::<u32>(addr) as u64,
_ => panic!("Trying to read size other than: 8, 16, 32 from port."),
};
// info!("Read the value {} from address {}", value, addr);
vm.registers[1] = hbvm::value::Value(value);
},
1 => unsafe {
let size = msg_vec[1];
let addr =
u16::from_le_bytes(msg_vec[2..4].try_into().unwrap_unchecked());
// info!("Setting address {}", addr);
unsafe fn x86_in(address: u16) -> u8 {
x86_64::instructions::port::Port::new(address).read()
}
unsafe fn x86_out(address: u16, value: u8) {
x86_64::instructions::port::Port::new(address).write(value);
}
match size {
0 => x86_out(addr, msg_vec[4]),
1 => x86_out(
addr,
u16::from_le_bytes(msg_vec[4..6].try_into().unwrap_unchecked()),
),
2 => x86_out(
addr,
u32::from_le_bytes(msg_vec[4..8].try_into().unwrap_unchecked()),
),
_ => panic!("How?"),
}
},
let mut msg_vec = block_read(mem_addr, length);
let msg_type = msg_vec[0];
msg_vec.remove(0);
match msg_type {
0 => {
let mut addr = msg_vec[0] as u16;
msg_vec.remove(0);
let addr2 = msg_vec[0] as u16;
msg_vec.remove(0);
addr = ((addr) << 8) | addr2;
let value = unsafe { x86_in(addr) };
trace!("Read the value {} from address {}", value, addr);
vm.registers[1] = hbvm::value::Value(value as u64);
}
1 => {
let mut addr = msg_vec[0] as u16;
msg_vec.remove(0);
let addr2 = msg_vec[0] as u16;
msg_vec.remove(0);
addr = ((addr) << 8) | addr2;
let value = msg_vec[0];
msg_vec.remove(0);
trace!("Setting the address {} to {}", addr, value);
unsafe { x86_out(addr, value) };
}
_ => {}
}
}
#[cfg(not(target_arch = "x86_64"))]
3 => unimplemented!("TODO: implement whatever buffer 3 does for no x86_64"),
// source of rng
4 => {
let block = block_read(mem_addr, length);
block.chunks_mut(8.min(length)).for_each(|chunk| {
chunk.clone_from_slice(
&crate::arch::hardware_random_u64().to_le_bytes()[..chunk.len()],
);
});
vm.registers[1] = hbvm::value::Value(mem_addr);
}
5 => match dt_msg_handler(vm, mem_addr, length) {
Ok(()) => {}
Err(_) => log::error!("Improper dt query"),
},
6 => unsafe {
let program = block_read(mem_addr, length);
// decode AbleOS Executable format
let header = &program[0..46];
let magic_slice = &header[0..3];
if magic_slice != [0x15, 0x91, 0xD2] {
log::error!("Invalid magic number at the start of executable.");
return;
}
let executable_format_version =
u32::from_le_bytes(header[3..7].try_into().unwrap());
let offset = if executable_format_version == 0 {
47
} else {
error!("Invalid executable format.");
return;
};
let code_length = u64::from_le_bytes(header[7..15].try_into().unwrap());
let data_length = u64::from_le_bytes(header[15..23].try_into().unwrap());
let end = (code_length + data_length) as usize;
log::debug!("{code_length} + {data_length} = {end}");
let thr = ExecThread::new(&program[offset..end], Address::new(0));
vm.registers[1] = Value(
LazyCell::<Executor>::get_mut(&mut EXECUTOR)
.unwrap()
.spawn(Box::pin(async move {
if let Err(e) = thr.await {
log::error!("{e:?}");
}
})) as u64,
);
log::debug!("spawned a process");
},
buffer_id => {
let mut buffs = IPC_BUFFERS.lock();
match buffs.get_mut(&buffer_id) {
Some(buff) => {
let msg_vec = block_read(mem_addr, length);
buff.push(msg_vec.to_vec());
debug!("Sent Message {:?} to Buffer({})", msg_vec, buffer_id);
let mut msg_vec = vec![];
for x in 0..(length as isize) {
let xyz = mem_addr as *const u8;
let value = unsafe { xyz.offset(x).read() };
msg_vec.push(value);
}
buff.push(msg_vec.clone());
info!(
"Message {:?} has been sent to Buffer({})",
msg_vec, buffer_id
);
}
None => {
log::error!("Access of non-existent buffer {}", buffer_id)
}
}
drop(buffs);
}
}
}
4 => {
let buffer_id = vm.registers[3].cast::<u64>();
let map_ptr = vm.registers[4].cast::<u64>();
let mut map_ptr = vm.registers[4].cast::<u64>();
let max_length = vm.registers[5].cast::<u64>();
let mut buffs = IPC_BUFFERS.lock();
let buff: &mut IpcBuffer = match buffs.get_mut(&buffer_id) {
Some(buff) => buff,
None => panic!(
"Failed to get buffer: id={buffer_id}, ptr={map_ptr}, length={max_length}"
),
};
let msg = match buff.pop() {
Ok(msg) => msg,
Err(_) => return,
};
if msg.len() > unsafe { max_length.try_into().unwrap_unchecked() } {
let mut buffs = IPC_BUFFERS.lock();
let mut buff: &mut IpcBuffer;
if buffs.get_mut(&buffer_id).is_some() {
buff = buffs.get_mut(&buffer_id).unwrap();
} else {
info!("AHHH");
vm.registers[1] = hbvm::value::Value(0);
return;
}
let pop = buff.pop();
if pop.is_err() {
return;
}
let msg = pop.unwrap();
if msg.len() > max_length.try_into().unwrap() {
info!("{}", max_length);
error!("Message is too long to map in.");
} else {
unsafe {
let ptr = map_ptr as *mut u8;
ptr.copy_from_nonoverlapping(msg.as_ptr(), msg.len());
let ptr: *mut u64 = &mut map_ptr;
for (index, byte) in msg.iter().enumerate() {
ptr.offset(index.try_into().unwrap()).write_bytes(*byte, 1);
}
}
debug!("Recieve {:?} from Buffer({})", msg, buffer_id);
info!("Recieve {:?} from Buffer({})", msg, buffer_id);
}
}
5 => {
#[cfg(target_arch = "x86_64")]
{
let r2 = vm.registers[2].cast::<u64>();
let x = hbvm::value::Value(unsafe { x86_in::<u8>(r2 as u16) } as u64);
// info!("Read {:?} from Port {:?}", x, r2);
unsafe fn x86_in(address: u16) -> u32 {
x86_64::instructions::port::Port::new(address).read()
}
unsafe fn x86_out(address: u16, value: u32) {
x86_64::instructions::port::Port::new(address).write(value);
}
let x = hbvm::value::Value(unsafe { x86_in(r2 as u16) } as u64);
info!("Read {:?} from Port {:?}", x, r2);
vm.registers[3] = x
}
}
6 => {
// Wait till interrupt
use crate::kmain::EXECUTOR;
let interrupt_type = vm.registers[3].cast::<u8>();
debug!("Interrupt subscribed: {}", interrupt_type);
unsafe {
LazyCell::<Executor>::get_mut(&mut EXECUTOR)
.unwrap()
.interrupt_subscribe(*pid, interrupt_type);
}
}
7 => {
// Wait till buffer
use crate::kmain::EXECUTOR;
let buffer_id = vm.registers[3].cast::<u64>() as usize;
debug!("Buffer subscribed: {}", buffer_id);
unsafe {
LazyCell::<Executor>::get_mut(&mut EXECUTOR)
.unwrap()
.buffer_subscribe(*pid, buffer_id);
}
}
// 5
_ => {
log::error!("Syscall unknown {:?}{:?}", ecall_number, vm.registers);
}
}
}
fn log_msg_handler(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), LogError> {
// let message_length = 8 + 8 + 8;
// log::info!("Mem Addr 0x{:x?} length {}", mem_addr, length);
let mut msg_vec = block_read(mem_addr, length);
let log_level = msg_vec.pop().unwrap();
match String::from_utf8(msg_vec) {
Ok(strr) => {
// use LogLevel::*;
let ll = match log_level {
0 | 48 => error!("{}", strr),
1 | 49 => warn!("{}", strr),
2 | 50 => info!("{}", strr),
3 | 51 => debug!("{}", strr),
4 | 52 => trace!("{}", strr),
_ => {
return Err(LogError::InvalidLogFormat);
}
};
}
Err(e) => {
error!("{:?}", e);
}
}
Ok(())
}
#[derive(Debug)]
pub enum LogError {
NoMessages,
InvalidLogFormat,
}
use {alloc::vec, log::Record};
// fn memory_msg_handler(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), LogError> {
// let mut val = alloc::vec::Vec::new();
// for _ in 0..4096 {
// val.push(0);
// }
// info!("Block address: {:?}", val.as_ptr());
// vm.registers[1] = hbvm::value::Value(val.as_ptr() as u64);
// vm.registers[2] = hbvm::value::Value(4096);
// Ok(())
// }

View file

@ -1,78 +0,0 @@
use {
crate::holeybytes::{kernel_services::block_read, Vm},
alloc::vec::Vec,
};
pub enum DtError {
QueryFailure,
}
pub fn dt_msg_handler(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), DtError> {
let msg_vec = block_read(mem_addr, length);
let query_string = core::str::from_utf8(
msg_vec
.split_once(|&byte| byte == 0)
.unwrap_or((msg_vec, &[]))
.0,
)
.unwrap();
log::trace!("Query {}", query_string);
let ret = query_parse(query_string);
log::trace!("Query response {}", ret);
vm.registers[1] = hbvm::value::Value(ret);
Ok(())
}
fn query_parse(query_string: &str) -> u64 {
let query = query_string.split('/').collect::<Vec<&str>>();
let first_fragment: &str = &query[0];
let ret = match first_fragment {
"framebuffer" => framebuffer_parse(query),
"cpu" => cpu_parse(query),
_ => 0,
};
return ret;
}
fn cpu_parse(qt_parse_step_two: Vec<&str>) -> u64 {
let second_fragment: &str = qt_parse_step_two[1];
match second_fragment {
// "architecture" => {
// return 0;
// }
_ => {
return 0;
}
};
}
fn framebuffer_parse(qt_parse_step_two: Vec<&str>) -> u64 {
use crate::kmain::FB_REQ;
let fbs = &mut FB_REQ.get_response().get().unwrap().framebuffers();
let second_fragment: &str = qt_parse_step_two[1];
match second_fragment {
"fb0" => {
let fb_front = &fbs[0];
let third_fragment: &str = qt_parse_step_two[2];
let ret = match third_fragment {
"ptr" => {
let ptr = fb_front.address.as_ptr().unwrap();
ptr as usize as u64
}
"width" => fb_front.width,
"height" => fb_front.height,
_ => 0,
};
return ret;
}
_ => {
return 0;
}
};
}

View file

@ -1,54 +0,0 @@
use crate::holeybytes::{kernel_services::block_read, Vm};
#[derive(Debug)]
pub enum LogError {
InvalidLogFormat,
}
use log::Record;
pub fn log_msg_handler(_vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), LogError> {
let msg_vec = block_read(mem_addr, length);
use log::Level::*;
let log_level = match msg_vec[0] {
0 | 48 => Error,
1 | 49 => Warn,
2 | 50 => Info,
3 | 51 => Debug,
4 | 52 => Trace,
_ => {
return Err(LogError::InvalidLogFormat);
}
};
if log_level > log::max_level() {
return Ok(());
}
let strptr = u64::from_le_bytes(msg_vec[1..9].try_into().unwrap());
let strlen = u64::from_le_bytes(msg_vec[9..17].try_into().unwrap()) as usize;
let str = block_read(strptr, strlen);
let file_name = "None";
let line_number = 0;
match core::str::from_utf8(&str) {
Ok(strr) => {
log::logger().log(
&Record::builder()
.args(format_args!("{}", strr))
.level(log_level)
.target("Userspace")
.file(Some(file_name))
.line(Some(line_number))
.module_path(Some(&file_name))
.build(),
);
}
Err(e) => {
log::error!("{:?}", e);
}
}
Ok(())
}

View file

@ -1,7 +1,10 @@
use {
crate::holeybytes::{kernel_services::block_read, Vm},
alloc::alloc::{alloc, dealloc},
core::alloc::Layout,
crate::holeybytes::{
ecah::LogError,
kernel_services::{block_read, mem_serve},
Vm,
},
alloc::alloc::alloc_zeroed,
log::{debug, info},
};
@ -16,100 +19,84 @@ pub enum MemoryQuotaType {
KillQuota = 3,
}
fn alloc_page(vm: &mut Vm, _mem_addr: u64, _length: usize) -> Result<(), MemoryServiceError> {
let ptr = unsafe { alloc(Layout::from_size_align_unchecked(4096, 8)) };
info!("Block address: {:?}", ptr);
vm.registers[1] = hbvm::value::Value(ptr as u64);
fn alloc_page(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), MemoryServiceError> {
let mut val = alloc::vec::Vec::new();
for _ in 0..4096 {
val.push(0);
}
info!("Block address: {:?}", val.as_ptr());
vm.registers[1] = hbvm::value::Value(val.as_ptr() as u64);
vm.registers[2] = hbvm::value::Value(4096);
Ok(())
}
#[inline(always)]
unsafe fn memset(dest: *mut u8, src: *const u8, count: usize, size: usize) {
let total_size = count * size;
src.copy_to_nonoverlapping(dest, size);
let mut copied = size;
while copied < total_size {
let copy_size = copied.min(total_size - copied);
dest.add(copied).copy_from_nonoverlapping(dest, copy_size);
copied += copy_size;
}
}
#[inline(always)]
pub fn memory_msg_handler(
vm: &mut Vm,
mem_addr: u64,
length: usize,
) -> Result<(), MemoryServiceError> {
let msg_vec = block_read(mem_addr, length);
let mut msg_vec = block_read(mem_addr, length);
let msg_type = msg_vec[0];
msg_vec.remove(0);
match msg_type {
0 => unsafe {
let page_count = msg_vec[1];
0 => {
let page_count = msg_vec[0];
msg_vec.remove(0);
let ptr = alloc(Layout::from_size_align_unchecked(
page_count as usize * 4096,
8,
));
let mptr_raw: [u8; 8] = msg_vec[0..8].try_into().unwrap();
let mptr: u64 = u64::from_le_bytes(mptr_raw);
log::debug!("Allocating {} pages @ {:x}", page_count, ptr as u64);
log::debug!("Allocating {} pages @ {:x}", page_count, mptr);
vm.registers[1] = hbvm::value::Value(ptr as u64);
log::debug!("Kernel ptr: {:x}", ptr as u64);
},
let mut val = alloc::vec::Vec::new();
for _ in 0..(page_count as isize * 4096) {
val.push(0);
}
vm.registers[1] = hbvm::value::Value(val.as_ptr() as u64);
log::debug!("Kernel ptr: {:x}", val.as_ptr() as u64);
}
1 => {
let page_count = msg_vec[0];
msg_vec.remove(0);
1 => unsafe {
let page_count = msg_vec[1];
let mptr_raw: [u8; 8] = msg_vec[2..10].try_into().unwrap();
let mptr_raw: [u8; 8] = msg_vec[0..8].try_into().unwrap();
let mptr: u64 = u64::from_le_bytes(mptr_raw);
log::debug!("Deallocating {} pages @ {:x}", page_count, mptr);
dealloc(
mptr as *mut u8,
Layout::from_size_align_unchecked(page_count as usize * 4096, 8),
)
},
}
2 => {
use MemoryQuotaType::*;
let quota_type = match msg_vec[1] {
let quota_type = match msg_vec[0] {
0 => NoQuota,
1 => SoftQuota,
2 => HardQuota,
3 => KillQuota,
_ => NoQuota,
};
let hid_raw: [u8; 8] = msg_vec[2..10].try_into().unwrap();
msg_vec.remove(0);
let hid_raw: [u8; 8] = msg_vec[0..8].try_into().unwrap();
let hid: u64 = u64::from_le_bytes(hid_raw);
let pid_raw: [u8; 8] = msg_vec[10..18].try_into().unwrap();
let pid: u64 = u64::from_le_bytes(pid_raw);
for _ in 0..8 {
msg_vec.remove(0);
}
let pid_raw: [u8; 8] = msg_vec[0..8].try_into().unwrap();
let pid: u64 = u64::from_le_bytes(hid_raw);
for _ in 0..8 {
msg_vec.remove(0);
}
debug!(
"Setting HID-{:x}:PID-{:x}'s quota type to {:?}",
hid, pid, quota_type
)
}
3 => {
let page_count = msg_vec[1];
let page_count = msg_vec[0];
log::debug!(" {} pages", page_count);
msg_vec.remove(0);
}
4 => unsafe {
let count = u32::from_le_bytes(msg_vec[1..5].try_into().unwrap_unchecked()) as usize;
let src = u64::from_le_bytes(msg_vec[5..13].try_into().unwrap_unchecked()) as *const u8;
let dest = u64::from_le_bytes(msg_vec[13..21].try_into().unwrap_unchecked()) as *mut u8;
src.copy_to_nonoverlapping(dest, count);
},
5 => unsafe {
let count = u32::from_le_bytes(msg_vec[1..5].try_into().unwrap_unchecked()) as usize;
let size = u32::from_le_bytes(msg_vec[5..9].try_into().unwrap_unchecked()) as usize;
let src = u64::from_le_bytes(msg_vec[9..17].try_into().unwrap_unchecked()) as *const u8;
let dest = u64::from_le_bytes(msg_vec[17..25].try_into().unwrap_unchecked()) as *mut u8;
memset(dest, src, count, size);
},
_ => {
log::debug!("Unknown memory service message type: {}", msg_type);
}

View file

@ -1,11 +1,15 @@
use core::slice;
use alloc::{vec, vec::Vec};
pub mod dt_msg_handler;
pub mod logging_service;
pub mod mem_serve;
pub mod service_definition_service;
#[inline(always)]
pub fn block_read<'a>(mem_addr: u64, length: usize) -> &'a mut [u8] {
unsafe { slice::from_raw_parts_mut(mem_addr as *mut _, length) }
pub fn block_read(mem_addr: u64, length: usize) -> Vec<u8> {
let mut msg_vec = vec![];
for x in 0..(length as isize) {
let xyz = mem_addr as *const u8;
let value = unsafe { xyz.offset(x).read() };
msg_vec.push(value);
}
msg_vec
}

View file

@ -1,40 +1,43 @@
use {
crate::{
alloc::string::ToString,
arch::hardware_random_u64,
holeybytes::{kernel_services::block_read, Vm},
ipc::{buffer::IpcBuffer, protocol::Protocol},
holeybytes::{ecah::LogError, kernel_services::block_read, Vm},
ipc::{
buffer::IpcBuffer,
protocol::{self, Protocol},
},
kmain::IPC_BUFFERS,
},
alloc::string::String,
hashbrown::HashMap,
log::{info, trace},
spin::{lazy::Lazy, Mutex},
};
pub struct Services<'a>(HashMap<u64, Protocol<'a>>);
pub struct Services(HashMap<u64, Protocol>);
pub static SERVICES: Lazy<Mutex<Services>> = Lazy::new(|| {
let mut dt = Services(HashMap::new());
dt.0.insert(0, Protocol::void());
Mutex::new(dt)
});
#[derive(Debug)]
pub enum ServiceError {
InvalidFormat,
}
pub fn sds_msg_handler(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), ServiceError> {
let msg_vec = block_read(mem_addr, length);
pub fn sds_msg_handler(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), LogError> {
let mut msg_vec = block_read(mem_addr, length);
let sds_event_type: ServiceEventType = msg_vec[0].into();
let strptr = u64::from_le_bytes(msg_vec[1..9].try_into().unwrap());
let strlen = u64::from_le_bytes(msg_vec[9..17].try_into().unwrap()) as usize;
let string_vec = block_read(strptr, strlen);
let string = core::str::from_utf8(string_vec).expect("Our bytes should be valid utf8");
msg_vec.remove(0);
// info!("Length {}", msg_vec.len());
use ServiceEventType::*;
match sds_event_type {
CreateService => {
let string = String::from_utf8(msg_vec).expect("Our bytes should be valid utf8");
let ret = sds_create_service(string);
vm.registers[1] = hbvm::value::Value(ret as u64);
}
DeleteService => todo!(),
SearchServices => {
let string = String::from_utf8(msg_vec).expect("Our bytes should be valid utf8");
let ret = sds_search_service(string);
vm.registers[1] = hbvm::value::Value(ret as u64);
}
@ -76,29 +79,30 @@ impl From<u8> for ServiceEventType {
}
}
fn sds_create_service(protocol: &'static str) -> u64 {
fn sds_create_service(protocol: String) -> u64 {
let buff_id = hardware_random_u64();
let mut services = SERVICES.lock();
let mut buffers = IPC_BUFFERS.lock();
let protocol_ = Protocol::from(protocol);
let protocol_ = Protocol::from(protocol.clone());
let mut buff = IpcBuffer::new(false, 0);
services.0.insert(buff_id, protocol_.clone());
buff.protocol = protocol_;
buff.protocol = protocol_.clone();
buffers.insert(buff_id, buff);
trace!("BufferID({}) => {}", buff_id, protocol);
// let a: protocol::Protocol = protocol.into();
buff_id
}
pub fn sds_search_service(protocol: &str) -> u64 {
let services = SERVICES.lock();
let compare = Protocol::from(protocol);
fn sds_search_service(protocol: String) -> u64 {
let mut services = SERVICES.lock();
let compare = Protocol::from(protocol.clone());
for (bid, protocol_canidate) in &services.0 {
trace!("BID-{bid} protocol_canidate {:?}", protocol_canidate);
if protocol_canidate == &compare {
trace!("BufferID({}) => {}", bid, protocol);
trace!("BufferID({}) => {}", bid, protocol.clone());
return *bid;
}
}

View file

@ -7,7 +7,7 @@
use hbvm::mem::Address;
fn calc_start_of_page(ptr: u64) -> u64 {
let _page_aligned = false;
let mut page_aligned = false;
if ptr % 4096 == 0 {
// page_aligned = true;
return ptr / 4096;
@ -21,39 +21,41 @@ pub struct Memory {
impl Memory {
#[cfg(target_arch = "x86_64")]
fn read_device(_addr: Address) {
//unsafe {
//
// x86_64::instructions::port::Port::new(addr.get()).read()
//}
fn read_device(addr: Address) {
unsafe {
//
// x86_64::instructions::port::Port::new(addr.get()).read()
}
}
}
impl hbvm::mem::Memory for Memory {
#[inline(always)]
#[inline]
unsafe fn load(
&mut self,
addr: Address,
target: *mut u8,
count: usize,
) -> Result<(), hbvm::mem::LoadError> {
core::ptr::copy_nonoverlapping(addr.get() as *const u8, target, count);
use log::{error, info};
if addr.get() % 4096 == 0 {}
core::ptr::copy(addr.get() as *const u8, target, count);
Ok(())
}
#[inline(always)]
#[inline]
unsafe fn store(
&mut self,
addr: Address,
source: *const u8,
count: usize,
) -> Result<(), hbvm::mem::StoreError> {
core::ptr::copy_nonoverlapping(source, addr.get() as *mut u8, count);
core::ptr::copy(source, addr.get() as *mut u8, count);
Ok(())
}
#[inline(always)]
#[inline]
unsafe fn prog_read<T: Copy>(&mut self, addr: Address) -> T {
(addr.get() as *const T).read()
(addr.get() as *const T).read_unaligned()
}
}

View file

@ -1,76 +1,77 @@
mod ecah;
pub mod kernel_services;
mod kernel_services;
mod mem;
use {
alloc::alloc::{alloc, dealloc},
core::{
alloc::Layout,
future::Future,
pin::Pin,
task::{Context, Poll},
},
crate::{arch, ipc::buffer::IpcBuffer, kmain::IPC_BUFFERS},
alloc::boxed::Box,
core::{default, future::Future, marker::PhantomData, ptr::NonNull, task::Poll},
hbvm::{
mem::{softpaging::HandlePageFault, Address},
mem::{
softpaging::{icache::ICache, HandlePageFault, SoftPagedMem},
Address, Memory,
},
VmRunError, VmRunOk,
},
log::error,
log::{debug, error, info, trace, warn},
};
const STACK_SIZE: usize = 1024 * 1024;
const TIMER_QUOTIENT: usize = 1000;
const TIMER_QUOTIENT: usize = 100;
type Vm = hbvm::Vm<mem::Memory, TIMER_QUOTIENT>;
pub struct ExecThread {
pub struct ExecThread<'p> {
vm: Vm,
stack_bottom: *mut u8,
_phantom: PhantomData<&'p [u8]>,
}
unsafe impl Send for ExecThread {}
impl ExecThread {
unsafe impl<'p> Send for ExecThread<'p> {}
impl<'p> ExecThread<'p> {
pub fn set_arguments(&mut self, ptr: u64, length: u64) {
self.vm.registers[1] = hbvm::value::Value(ptr);
self.vm.registers[2] = hbvm::value::Value(length);
}
pub unsafe fn new(program: &[u8], entrypoint: Address) -> Self {
let mut vm = Vm::new(
mem::Memory {},
Address::new(program.as_ptr() as u64 + entrypoint.get()),
);
let stack_bottom = allocate_stack();
pub unsafe fn new(program: &'p [u8], entrypoint: Address) -> Self {
let mut vm = unsafe {
Vm::new(
mem::Memory {},
Address::new(program.as_ptr() as u64 + entrypoint.get()),
)
};
let stack_bottom = unsafe { allocate_stack().as_ptr() };
vm.write_reg(254, (stack_bottom as usize + STACK_SIZE - 1) as u64);
ExecThread { vm, stack_bottom }
ExecThread {
vm,
stack_bottom,
_phantom: Default::default(),
}
}
}
impl<'p> Drop for ExecThread {
impl<'p> Drop for ExecThread<'p> {
fn drop(&mut self) {
unsafe { dealloc(self.stack_bottom, stack_layout()) };
unsafe { alloc::alloc::dealloc(self.stack_bottom, stack_layout()) };
}
}
impl<'p> Future for ExecThread {
impl<'p> Future for ExecThread<'p> {
type Output = Result<(), VmRunError>;
#[inline(always)]
fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
fn poll(
mut self: core::pin::Pin<&mut Self>,
cx: &mut core::task::Context<'_>,
) -> Poll<Self::Output> {
match self.vm.run() {
Err(err) => {
log::error!("HBVM Error\r\nRegister dump: {:?}", self.vm.registers,);
return Poll::Ready(Err(err));
}
Ok(VmRunOk::End) => return Poll::Ready(Ok(())),
Ok(VmRunOk::Ecall) => ecah::handler(
&mut self.vm,
cx.ext()
.downcast_ref()
.expect("PID did not exist in Context"),
),
Ok(VmRunOk::Ecall) => ecah::handler(&mut self.vm),
Ok(VmRunOk::Timer) => (),
Ok(VmRunOk::Breakpoint) => {
log::error!(
@ -90,22 +91,33 @@ impl HandlePageFault for PageFaultHandler {
fn page_fault(
&mut self,
reason: hbvm::mem::MemoryAccessReason,
_pagetable: &mut hbvm::mem::softpaging::paging::PageTable,
pagetable: &mut hbvm::mem::softpaging::paging::PageTable,
vaddr: hbvm::mem::Address,
size: hbvm::mem::softpaging::PageSize,
dataptr: *mut u8,
) -> bool {
error!("REASON: {reason} vaddr: {vaddr} size: {size:?} Dataptr {dataptr:p}");
) -> bool
where
Self: Sized,
{
log::error!(
"REASON: {reason} \
vaddr: {vaddr} \
size: {size:?} \
Dataptr {dataptr:p}",
);
false
}
}
#[inline(always)]
const fn stack_layout() -> Layout {
unsafe { Layout::from_size_align_unchecked(STACK_SIZE, 8) }
const fn stack_layout() -> core::alloc::Layout {
unsafe { alloc::alloc::Layout::from_size_align_unchecked(STACK_SIZE, 4096) }
}
#[inline(always)]
fn allocate_stack() -> *mut u8 {
unsafe { alloc(stack_layout()) }
fn allocate_stack() -> NonNull<u8> {
let layout = stack_layout();
match NonNull::new(unsafe { alloc::alloc::alloc_zeroed(layout) }) {
Some(ptr) => ptr,
None => alloc::alloc::handle_alloc_error(layout),
}
}

View file

@ -9,12 +9,12 @@ pub enum BufferTypes {
Bound(ArrayQueue<Message>),
}
/// Interproccess buffer
pub struct IpcBuffer<'a> {
pub protocol: Protocol<'a>,
pub struct IpcBuffer {
pub protocol: Protocol,
pub buffer: BufferTypes,
}
impl<'a> IpcBuffer<'a> {
impl IpcBuffer {
pub fn new(bounded: bool, length: u64) -> Self {
log::debug!(
"New IPCBuffer\r
@ -24,7 +24,7 @@ impl<'a> IpcBuffer<'a> {
length
);
match (bounded, length) {
(false, ..) => {
(false, a) => {
let buftype = BufferTypes::Unbound(SegQueue::new());
Self {
@ -48,8 +48,10 @@ impl<'a> IpcBuffer<'a> {
}
pub fn push(&mut self, msg: Message) {
match &self.buffer {
BufferTypes::Unbound(buff) => buff.push(msg),
BufferTypes::Bound(buff) => buff.push(msg).unwrap(),
BufferTypes::Unbound(buff) => buff.push(msg.clone()),
BufferTypes::Bound(buff) => {
let _ = buff.push(msg.clone());
}
};
}
pub fn pop(&mut self) -> Result<Message, IpcError> {

View file

@ -1,17 +1,21 @@
use {alloc::vec::Vec, hashbrown::HashMap};
use {
alloc::{string::String, vec::Vec},
hashbrown::HashMap,
log::info,
};
#[derive(Debug, PartialEq, Clone)]
pub struct Type {}
#[derive(Debug, PartialEq, Clone)]
pub struct Funct<'a> {
takes: Vec<&'a str>,
gives: Vec<&'a str>,
pub struct Funct {
takes: Vec<String>,
gives: Vec<String>,
}
#[derive(Debug, PartialEq, Clone)]
pub struct Protocol<'a> {
types: HashMap<&'a str, Type>,
fns: HashMap<&'a str, Funct<'a>>,
pub struct Protocol {
types: HashMap<String, Type>,
fns: HashMap<String, Funct>,
}
impl<'a> Protocol<'a> {
impl Protocol {
pub fn void() -> Self {
Self {
types: HashMap::new(),
@ -24,8 +28,8 @@ impl<'a> Protocol<'a> {
}
}
impl<'a> From<&'a str> for Protocol<'a> {
fn from(value: &'a str) -> Self {
impl From<String> for Protocol {
fn from(value: alloc::string::String) -> Self {
let mut hm_t = HashMap::new();
hm_t.insert(value, Type {});
Self {

View file

@ -2,40 +2,27 @@
use {
crate::{
arch::hardware_random_u64,
bootmodules::BootModules,
//bootmodules::build_cmd,
arch::{hardware_random_u64, logging::SERIAL_CONSOLE},
bootmodules::{build_cmd, BootModules},
capabilities,
device_tree::DeviceTree,
holeybytes::ExecThread,
ipc::buffer::IpcBuffer,
task::Executor,
ipc::buffer::{self, IpcBuffer},
},
alloc::boxed::Box,
core::cell::LazyCell,
alloc::format,
hashbrown::HashMap,
hbvm::mem::Address,
limine::{Framebuffer, FramebufferRequest, NonNullPtr},
log::{debug, error, trace},
log::{debug, info, trace},
spin::{Lazy, Mutex},
xml::XMLElement,
};
pub fn kmain(_cmdline: &str, boot_modules: BootModules) -> ! {
pub fn kmain(cmdline: &str, boot_modules: BootModules) -> ! {
debug!("Entered kmain");
#[cfg(feature = "ktest")]
{
use {
crate::ktest,
log::info,
};
info!("Running tests");
ktest::test_main();
loop {}
}
// let kcmd = build_cmd("Kernel Command Line", cmdline);
// trace!("Cmdline: {kcmd:?}");
let kcmd = build_cmd("Kernel Command Line", cmdline);
trace!("Cmdline: {kcmd:?}");
// for (i, bm) in boot_modules.iter().enumerate() {
// let name = format!("module-{}", i);
@ -51,9 +38,9 @@ pub fn kmain(_cmdline: &str, boot_modules: BootModules) -> ! {
let dt = DEVICE_TREE.lock();
// TODO(Able): This line causes a deadlock
debug!("Device Tree: {}", dt);
info!("Device Tree: {}", dt);
trace!("Boot complete. Moving to init_system");
info!("Boot complete. Moving to init_system");
// TODO: schedule the disk driver from the initramfs
// TODO: schedule the filesystem driver from the initramfs
@ -65,91 +52,64 @@ pub fn kmain(_cmdline: &str, boot_modules: BootModules) -> ! {
let fb1: &NonNullPtr<Framebuffer> = &FB_REQ.get_response().get().unwrap().framebuffers()[0];
{
use crate::alloc::string::ToString;
let mut dt = DEVICE_TREE.lock();
let mut disp = xml::XMLElement::new("display_0");
disp.set_attribute("width", fb1.width);
disp.set_attribute("height", fb1.height);
disp.set_attribute("bpp", fb1.bpp);
disp.set_attribute("bits per pixel", fb1.bpp);
disp.set_attribute("pitch", fb1.pitch);
dt.devices.insert("Displays", alloc::vec![disp]);
dt.devices.insert("Displays".to_string(), alloc::vec![disp]);
}
debug!("Graphics initialised");
debug!(
log::info!("Graphics initialised");
log::info!(
"Graphics front ptr {:?}",
fb1.address.as_ptr().unwrap() as *const u8
);
log::info!("Started AbleOS");
let mut executor = crate::task::Executor::default();
let bm_take = boot_modules.len();
unsafe {
let executor = LazyCell::<Executor>::force_mut(&mut EXECUTOR);
for module in boot_modules.iter() {
let cmd = module.cmd.trim_matches('"');
let cmd_len = cmd.len() as u64;
log::info!(
"Starting {}",
module
.path
.split('/')
.last()
.unwrap()
.split('.')
.next()
.unwrap()
);
log::debug!("Spawning {} with arguments \"{}\"", module.path, cmd);
// decode AbleOS Executable format
let header = &module.bytes[0..46];
let magic_slice = &header[0..3];
if magic_slice != [0x15, 0x91, 0xD2] {
log::error!("Invalid magic number at the start of executable.");
continue;
for module in boot_modules.into_iter().take(bm_take) {
let mut cmd = module.cmd;
if cmd.len() > 2 {
// Remove the quotes
cmd.remove(0);
cmd.pop();
}
let cmd_len = cmd.as_bytes().len() as u64;
let executable_format_version = u32::from_le_bytes(header[3..7].try_into().unwrap());
let offset = if executable_format_version == 0 {
47
} else {
error!("Invalid executable format.");
continue;
};
log::info!("Spawning {} with arguments \"{}\"", module.path, cmd);
let code_length = u64::from_le_bytes(header[7..15].try_into().unwrap());
let data_length = u64::from_le_bytes(header[15..23].try_into().unwrap());
let end = (code_length + data_length) as usize;
log::debug!("{code_length} + {data_length} = {end}");
executor.spawn(async move {
let mut thr = ExecThread::new(&module.bytes, Address::new(0));
if cmd_len > 0 {
thr.set_arguments(cmd.as_bytes().as_ptr() as u64, cmd_len);
}
let mut thr = ExecThread::new(&module.bytes[offset..end], Address::new(0));
if cmd_len > 0 {
thr.set_arguments(cmd.as_ptr() as u64, cmd_len);
}
executor.spawn(Box::pin(async {
if let Err(e) = thr.await {
log::error!("{e:?}");
}
}));
});
}
debug!("Random number: {}", hardware_random_u64());
info!("Random number: {}", hardware_random_u64());
executor.run();
};
crate::arch::spin_loop()
}
// ! SAFETY: this is not threadsafe at all, like even a little bit.
// ! SERIOUSLY
pub static mut EXECUTOR: LazyCell<Executor> = LazyCell::new(|| Executor::new());
pub static DEVICE_TREE: Lazy<Mutex<DeviceTree>> = Lazy::new(|| {
let dt = DeviceTree::new();
Mutex::new(dt)
});
pub static FB_REQ: FramebufferRequest = FramebufferRequest::new(0);
pub type IpcBuffers<'a> = HashMap<u64, IpcBuffer<'a>>;
use alloc::vec::Vec;
pub type IpcBuffers = HashMap<u64, IpcBuffer>;
pub static IPC_BUFFERS: Lazy<Mutex<IpcBuffers>> = Lazy::new(|| {
let mut bufs = HashMap::new();
let log_buffer = IpcBuffer::new(false, 0);
@ -160,3 +120,10 @@ pub static IPC_BUFFERS: Lazy<Mutex<IpcBuffers>> = Lazy::new(|| {
Mutex::new(bufs)
});
#[test_case]
fn trivial_assertion() {
trace!("trivial assertion... ");
assert_eq!(1, 1);
info!("[ok]");
}

View file

@ -1,51 +0,0 @@
pub use ktest_macro::*;
use {
alloc::string::String,
log::{error, info},
};
extern "C" {
static __ktest_start: fn() -> Result<String, String>;
static __ktest_end: fn() -> Result<String, String>;
}
// TODO: Implement ktest for arm and riscv (Later problems, see below)
// Allow for arch specific tests (Leave for now)
// Should panic tests
// Test specific panic handler
pub fn test_main() {
unsafe {
let mut current_test = &__ktest_start as *const fn() -> Result<String, String>;
let test_end = &__ktest_end as *const fn() -> Result<String, String>;
let mut pass = 0;
let mut fail = 0;
while current_test < test_end {
let test_fn = *current_test;
let test_name = test_fn();
match test_name {
Ok(name) => {
info!("Test: {} passed", name);
pass += 1;
},
Err(name) => {
error!("Test: {} failed", name);
fail += 1;
}
}
current_test = current_test.add(1);
}
info!("{}/{} tests passed", pass, pass + fail);
}
}
#[ktest]
pub fn trivial_assertion() {
ktest_eq!(1, 1);
ktest_neq!(0, 1);
}

View file

@ -1,22 +1,21 @@
//! The ableOS kernel.
//! Named akern.
//! Akern is woefully undersupported at the moment but we are looking to add support improve hardware discovery and make our lives as kernel and operating system developers easier and better
#![no_std]
#![no_main]
#![feature(
slice_split_once,
exclusive_wrapper,
core_intrinsics,
abi_x86_interrupt,
lazy_get,
alloc_error_handler,
local_waker,
context_ext,
inline_const,
panic_info_message,
pointer_is_aligned,
ptr_sub_ptr,
custom_test_frameworks,
naked_functions,
pointer_is_aligned_to
)]
#![allow(dead_code, internal_features, static_mut_refs)]
#![allow(dead_code)]
#![test_runner(crate::test_runner)]
extern crate alloc;
mod allocator;
@ -24,7 +23,6 @@ mod arch;
mod bootmodules;
mod capabilities;
mod device_tree;
mod exe_format;
mod handle;
mod holeybytes;
mod ipc;
@ -34,9 +32,6 @@ mod memory;
mod task;
mod utils;
#[allow(improper_ctypes, non_upper_case_globals)]
mod ktest;
use versioning::Version;
/// Kernel's version
@ -47,9 +42,7 @@ pub const VERSION: Version = Version {
};
#[panic_handler]
#[cfg(target_os = "none")]
fn panic(info: &core::panic::PanicInfo) -> ! {
use alloc::string::ToString;
arch::register_dump();
if let Some(loc) = info.location() {
@ -61,7 +54,17 @@ fn panic(info: &core::panic::PanicInfo) -> ! {
));
}
let msg = info.message().to_string().replace("\n", "\r\n");
let _ = crate::arch::log(format_args!("{msg}\r\n"));
if let Some(msg) = info.message() {
let _ = crate::arch::log(format_args!("{msg}\r\n"));
}
loop {}
}
#[cfg(test)]
fn test_runner(tests: &[&dyn Fn()]) {
println!("Running {} tests", tests.len());
for test in tests {
test();
}
}

View file

@ -1,4 +1,3 @@
#![allow(deprecated)]
// TODO: Add a logger api with logger levels and various outputs
pub static TERMINAL_LOGGER: Lazy<Mutex<TermLogger>> = Lazy::new(|| Mutex::new(TermLogger::new()));
@ -10,11 +9,7 @@ use {
pub fn init() -> Result<(), SetLoggerError> {
log::set_logger(&crate::logger::Logger)?;
if cfg!(debug_assertions) {
log::set_max_level(log::LevelFilter::Debug);
} else {
log::set_max_level(log::LevelFilter::Info);
}
log::set_max_level(log::LevelFilter::Debug);
Lazy::force(&TERMINAL_LOGGER);
@ -36,26 +31,13 @@ impl log::Log for Logger {
Level::Debug => "25",
Level::Trace => "103",
};
let module = record
.module_path()
.unwrap_or_default()
.rsplit_once(':')
.unwrap_or_default()
.1;
if module == "" {
crate::arch::log(format_args!(
"\x1b[38;5;{lvl_color}m{lvl}\x1b[0m: {}\r\n",
record.args(),
))
.expect("write to serial console");
} else {
let line = record.line().unwrap_or_default();
crate::arch::log(format_args!(
"\x1b[38;5;{lvl_color}m{lvl}\x1b[0m [{module}:{line}]: {}\r\n",
record.args(),
))
.expect("write to serial console");
}
let module = record.module_path().unwrap_or_default();
let line = record.line().unwrap_or_default();
crate::arch::log(format_args!(
"\x1b[38;5;{lvl_color}m{lvl}\x1b[0m [{module}:{line}]: {}\r\n",
record.args(),
))
.expect("write to serial console");
}
fn flush(&self) {}

View file

@ -1,6 +1,7 @@
//! The Memory Manager
use {alloc::collections::VecDeque, derive_more::*};
use alloc::collections::VecDeque;
use derive_more::*;
pub use crate::arch::PAGE_SIZE;
pub const MAX_ORDER: usize = 10;
@ -43,7 +44,7 @@ pub const MAX_ORDER: usize = 10;
Sum,
UpperHex,
)]
#[display("0x{:x}", _0)]
#[display(fmt = "0x{:x}", _0)]
#[from(forward)]
pub struct VirtualAddress(usize);
@ -54,11 +55,11 @@ impl VirtualAddress {
pub fn vpns(&self) -> [usize; 3] {
[
// [20:12]
(self.0 >> 12) & 0x1FF,
(self.0 >> 12) & 0x1ff,
// [29:21]
(self.0 >> 21) & 0x1FF,
(self.0 >> 21) & 0x1ff,
// [38:30]
(self.0 >> 30) & 0x1FF,
(self.0 >> 30) & 0x1ff,
]
}
@ -113,7 +114,7 @@ impl VirtualAddress {
Sum,
UpperHex,
)]
#[display("0x{:x}", _0)]
#[display(fmt = "0x{:x}", _0)]
#[from(forward)]
pub struct PhysicalAddress(usize);
@ -124,11 +125,11 @@ impl PhysicalAddress {
pub fn ppns(&self) -> [usize; 3] {
[
// [20:12]
(self.0 >> 12) & 0x1FF,
(self.0 >> 12) & 0x1ff,
// [29:21]
(self.0 >> 21) & 0x1FF,
(self.0 >> 21) & 0x1ff,
// [55:30]
(self.0 >> 30) & 0x3FFFFFF,
(self.0 >> 30) & 0x3ffffff,
]
}

View file

@ -1,19 +1,26 @@
#![allow(unused)]
use {
alloc::{
boxed::Box,
collections::{BTreeMap, BTreeSet},
sync::Arc,
},
alloc::{boxed::Box, collections::BTreeMap, sync::Arc, task::Wake},
core::{
future::Future,
pin::Pin,
sync::atomic::{AtomicBool, Ordering},
task::{Context, ContextBuilder, Poll, RawWaker, RawWakerVTable, Waker},
task::{Context, Poll, Waker},
},
crossbeam_queue::SegQueue,
kiam::when,
slab::Slab,
spin::RwLock,
};
static SPAWN_QUEUE: RwLock<Option<SpawnQueue>> = RwLock::new(None);
pub fn spawn(future: impl Future<Output = ()> + Send + 'static) {
match &*SPAWN_QUEUE.read() {
Some(s) => s.push(Task::new(future)),
None => panic!("no task executor is running"),
}
}
pub fn yield_now() -> impl Future<Output = ()> {
struct YieldNow(bool);
impl Future for YieldNow {
@ -33,184 +40,101 @@ pub fn yield_now() -> impl Future<Output = ()> {
YieldNow(false)
}
pub trait Process: Future<Output = ()> + Send {}
impl<T: Future<Output = ()> + Send> Process for T {}
#[derive(Default)]
pub struct Executor {
tasks: Slab<Task>,
task_queue: Arc<SegQueue<usize>>,
interrupt_lookup: [Option<usize>; u8::MAX as usize],
buffer_lookup: BTreeMap<usize, BTreeSet<usize>>,
tasks: Slab<Task>,
queue: TaskQueue,
to_spawn: SpawnQueue,
wakers: BTreeMap<TaskId, Waker>,
}
impl Executor {
pub fn new() -> Self {
Self {
tasks: Slab::new(),
task_queue: Arc::new(SegQueue::new()),
interrupt_lookup: [None; u8::MAX as usize],
buffer_lookup: BTreeMap::new(),
}
}
pub fn spawn(&mut self, future: Pin<Box<dyn Process>>) -> usize {
let id = self.tasks.insert(Task::new(future));
self.task_queue.push(id);
id
}
pub fn pause(&self, id: usize) {
if let Some(task) = self.tasks.get(id) {
task.set_paused(true);
}
}
pub fn unpause(&self, id: usize) {
if let Some(task) = self.tasks.get(id) {
task.set_paused(false);
self.task_queue.push(id);
}
}
pub fn interrupt_subscribe(&mut self, pid: usize, interrupt_type: u8) {
self.pause(pid);
self.interrupt_lookup[interrupt_type as usize] = Some(pid);
}
pub fn buffer_subscribe(&mut self, pid: usize, buffer_id: usize) {
self.pause(pid);
if let Some(buf) = self.buffer_lookup.get_mut(&buffer_id) {
buf.insert(pid);
} else {
self.buffer_lookup.insert(buffer_id, BTreeSet::from([pid]));
}
pub fn spawn(&mut self, future: impl Future<Output = ()> + Send + 'static) {
self.queue
.push(TaskId(self.tasks.insert(Task::new(future))));
}
pub fn run(&mut self) {
let mut task_batch = [0; 32];
{
let mut global_spawner = SPAWN_QUEUE.write();
if global_spawner.is_some() {
panic!("Task executor is already running");
}
*global_spawner = Some(Arc::clone(&self.to_spawn));
}
loop {
let mut batch_len = 0;
when! {
let Some(id) = self
.to_spawn
.pop()
.map(|t| TaskId(self.tasks.insert(t)))
.or_else(|| self.queue.pop())
=> {
let Some(task) = self.tasks.get_mut(id.0) else {
panic!("Attempted to get task from empty slot: {}", id.0);
};
while let Some(id) = self.task_queue.pop() {
task_batch[batch_len] = id;
batch_len += 1;
if batch_len == task_batch.len() {
break;
}
}
let mut cx = Context::from_waker(self.wakers.entry(id).or_insert_with(|| {
Waker::from(Arc::new(TaskWaker {
id,
queue: Arc::clone(&self.queue),
}))
}));
if batch_len == 0 {
// break;
continue;
}
for &(mut id) in &task_batch[..batch_len] {
if let Some(task) = self.tasks.get_mut(id) {
if task.is_paused() {
continue;
match task.poll(&mut cx) {
Poll::Ready(()) => {
self.tasks.remove(id.0);
self.wakers.remove(&id);
}
Poll::Pending => (),
}
let waker = create_waker(id, Arc::clone(&self.task_queue));
let mut cx = ContextBuilder::from_waker(&waker).ext(&mut id).build();
if let Poll::Ready(()) = task.poll(&mut cx) {
self.tasks.remove(id);
self.interrupt_lookup.map(|pid| {
if let Some(pid) = pid {
if pid == id {
return None;
}
}
return pid;
});
self.buffer_lookup.iter_mut().for_each(|(_, pid_set)| {
pid_set.remove(&id);
});
}
}
},
self.tasks.is_empty() => break,
_ => (),
}
}
}
pub fn send_interrupt(&self, interrupt: u8) {
let id = self.interrupt_lookup[interrupt as usize];
if let Some(id) = id {
self.unpause(id);
}
}
pub fn send_buffer(&self, id: usize) {
if let Some(buf) = self.buffer_lookup.get(&id) {
buf.iter().for_each(|pid| self.unpause(*pid));
}
*SPAWN_QUEUE.write() = None;
}
}
struct Task {
future: Pin<Box<dyn Process>>,
paused: AtomicBool,
future: Pin<Box<dyn Future<Output = ()> + Send>>,
}
impl Task {
fn new(future: Pin<Box<dyn Process>>) -> Self {
pub fn new(future: impl Future<Output = ()> + Send + 'static) -> Self {
log::trace!("New task scheduled");
Self {
future,
paused: AtomicBool::new(false),
future: Box::pin(future),
}
}
fn poll(&mut self, cx: &mut Context) -> Poll<()> {
self.future.as_mut().poll(cx)
}
fn is_paused(&self) -> bool {
self.paused.load(Ordering::Acquire)
}
fn set_paused(&self, paused: bool) {
self.paused.store(paused, Ordering::Release)
}
}
fn create_waker(task_id: usize, task_queue: Arc<SegQueue<usize>>) -> Waker {
let data = Box::new(TaskWaker {
task_id,
task_queue,
});
let raw_waker = RawWaker::new(Box::into_raw(data) as *const (), &VTABLE);
unsafe { Waker::from_raw(raw_waker) }
}
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
struct TaskId(usize);
type TaskQueue = Arc<SegQueue<TaskId>>;
type SpawnQueue = Arc<SegQueue<Task>>;
#[derive(Clone)]
struct TaskWaker {
task_id: usize,
task_queue: Arc<SegQueue<usize>>,
id: TaskId,
queue: TaskQueue,
}
impl TaskWaker {
fn wake(&self) {
self.task_queue.push(self.task_id);
impl Wake for TaskWaker {
fn wake(self: Arc<Self>) {
log::trace!("Woke Task-{:?}", self.id);
self.wake_by_ref();
}
fn wake_by_ref(self: &Arc<Self>) {
self.queue.push(self.id);
}
}
const VTABLE: RawWakerVTable = RawWakerVTable::new(clone_raw, wake_raw, wake_by_ref_raw, drop_raw);
unsafe fn clone_raw(ptr: *const ()) -> RawWaker {
let task_waker = Box::from_raw(ptr as *mut TaskWaker);
let raw_waker = RawWaker::new(Box::into_raw(task_waker.clone()) as *const (), &VTABLE);
raw_waker
}
unsafe fn wake_raw(ptr: *const ()) {
let task_waker = Box::from_raw(ptr as *mut TaskWaker);
task_waker.wake();
}
unsafe fn wake_by_ref_raw(ptr: *const ()) {
let task_waker = &*(ptr as *const TaskWaker);
task_waker.wake();
}
unsafe fn drop_raw(ptr: *const ()) {
drop(Box::from_raw(ptr as *mut TaskWaker));
}

View file

@ -4,14 +4,15 @@
/// Used when tab `\t` in hardware is not known and we will default to two spaces
pub const TAB: &str = " ";
// NOTE: this only reduces the code duplication in source code not in generated code!
// Written by Yours Truly: Munir
/// A simple macro to reduce code duplication when we use TAB internally
#[macro_export]
macro_rules! tab {
($num:expr) => {
($num:expr) => {
TAB.repeat($num)
};
}
}
// NOTE: this only reduces the code duplication in source code not in generated code!
@ -21,7 +22,7 @@ macro_rules! tab {
macro_rules! device_tree {
($devtree:expr, $dev_type_vec:expr) => {
for each_device_type in $dev_type_vec {
$devtree.devices.insert(each_device_type, Vec::new());
$devtree.devices.insert(each_device_type.to_string(), Vec::new());
}
};
}
@ -49,4 +50,4 @@ macro_rules! cpu_features {
$result_vec.push(("rdseed", rdseed));
$result_vec.push(("x2apic", x2));
};
}
}

View file

@ -1,25 +1,25 @@
{
"arch": "aarch64",
"data-layout": "e-m:e-i8:8:32-i16:16:32-i64:64-i128:128-n32:64-S128-Fn32",
"disable-redzone": true,
"env": "",
"executables": true,
"features": "+strict-align,+neon,+fp-armv8",
"linker": "rust-lld",
"linker-flavor": "ld.lld",
"linker-is-gnu": true,
"pre-link-args": {
"ld.lld": [
"-Tkernel/lds/aarch64-qemu.ld"
]
},
"llvm-target": "aarch64-unknown-none",
"max-atomic-width": 128,
"os": "none",
"panic-strategy": "abort",
"relocation-model": "static",
"target-c-int-width": "32",
"target-endian": "little",
"target-pointer-width": "64",
"vendor": "ablecorp"
"arch": "aarch64",
"data-layout": "e-m:e-i8:8:32-i16:16:32-i64:64-i128:128-n32:64-S128",
"disable-redzone": true,
"env": "",
"executables": true,
"features": "+strict-align,+neon,+fp-armv8",
"linker": "rust-lld",
"linker-flavor": "ld.lld",
"linker-is-gnu": true,
"pre-link-args": {
"ld.lld": [
"-Tkernel/lds/aarch64-qemu.ld"
]
},
"llvm-target": "aarch64-unknown-none",
"max-atomic-width": 128,
"os": "none",
"panic-strategy": "abort",
"relocation-model": "static",
"target-c-int-width": "32",
"target-endian": "little",
"target-pointer-width": "64",
"vendor": ""
}

View file

@ -1,22 +1,22 @@
{
"llvm-target": "x86_64-unknown-none",
"data-layout": "e-m:e-p270:32:32-p271:32:32-p272:64:64-i64:64-i128:128-f80:128-n8:16:32:64-S128",
"arch": "x86_64",
"target-endian": "little",
"target-pointer-width": "64",
"target-c-int-width": "32",
"os": "none",
"executables": true,
"linker-flavor": "ld.lld",
"linker": "rust-lld",
"panic-strategy": "abort",
"disable-redzone": true,
"features": "",
"code-model": "kernel",
"pre-link-args": {
"ld.lld": [
"--gc-sections",
"--script=kernel/lds/x86_64.ld"
]
}
"llvm-target": "x86_64-unknown-none",
"data-layout": "e-m:e-p270:32:32-p271:32:32-p272:64:64-i64:64-i128:128-f80:128-n8:16:32:64-S128",
"arch": "x86_64",
"target-endian": "little",
"target-pointer-width": "64",
"target-c-int-width": "32",
"os": "none",
"executables": true,
"linker-flavor": "ld.lld",
"linker": "rust-lld",
"panic-strategy": "abort",
"disable-redzone": true,
"features": "",
"code-model": "kernel",
"pre-link-args": {
"ld.lld": [
"--gc-sections",
"--script=kernel/lds/x86_64.ld"
]
}
}

View file

@ -1,22 +0,0 @@
{
"llvm-target": "x86_64-unknown-none",
"data-layout": "e-m:e-p270:32:32-p271:32:32-p272:64:64-i64:64-i128:128-f80:128-n8:16:32:64-S128",
"arch": "x86_64",
"target-endian": "little",
"target-pointer-width": "64",
"target-c-int-width": "32",
"os": "none",
"executables": true,
"linker-flavor": "ld.lld",
"linker": "rust-lld",
"panic-strategy": "abort",
"disable-redzone": true,
"features": "+sse4.1,+avx,+aes,+fma,+popcnt,+bmi2,+avx2,+lzcnt,+xsave",
"code-model": "kernel",
"pre-link-args": {
"ld.lld": [
"--gc-sections",
"--script=kernel/lds/x86_64.ld"
]
}
}

View file

@ -1,2 +0,0 @@
# i did not know where to put this
- memcpy / memset cause crash on debug builds due to ptr misalignment that is not present on release builds

View file

@ -4,17 +4,15 @@ version = "0.2.0"
edition = "2021"
[dependencies]
str-reader = "0.1"
derive_more = { version = "1", default-features = false, features = [
"display",
] }
error-stack = "0.5"
fatfs = { version = "0.3", default-features = false, features = [
"std",
"alloc",
] }
toml = "0.8"
str-reader = "0.1.2"
derive_more = "0.99"
error-stack = "0.4"
fatfs = "0.3"
toml = "0.5.2"
# hbasm.git = "https://git.ablecorp.us/AbleOS/holey-bytes.git"
hblang.git = "https://git.ablecorp.us/AbleOS/holey-bytes.git"
log = "0.4"
raw-cpuid = "11"
ureq = { version = "2", default-features = false, features = ["tls"] }
[dependencies.reqwest]
version = "0.11"
default-features = false
features = ["rustls-tls", "blocking"]

View file

@ -1,6 +1,4 @@
#![allow(unused)]
use std::{
collections::HashMap,
fmt::format,
fs::{read_to_string, File},
io::{BufWriter, Write},
@ -14,7 +12,6 @@ pub struct Package {
name: String,
binaries: Vec<String>,
build_cmd: String,
args: HashMap<String, String>,
}
impl Package {
@ -48,81 +45,49 @@ impl Package {
let mut binaries = vec![];
for (count, (name, table)) in bin_table.into_iter().enumerate() {
// if count != 0 {
println!("{}", name);
binaries.push(name.clone());
// }
}
let build_table = data.get("build").unwrap();
let mut build_cmd: String = build_table.get("command").unwrap().as_str().unwrap().into();
build_cmd.remove(0);
let mut args: HashMap<String, String> = match build_table.get("args") {
None => HashMap::new(),
Some(v) => v
.as_table()
.unwrap()
.into_iter()
.map(|(k, v)| (k.clone(), v.to_string()))
.collect::<HashMap<String, String>>(),
};
// build_cmd.pop();
Self {
name,
binaries,
build_cmd,
args,
}
}
pub fn build(&self, out: &mut Vec<u8>) -> std::io::Result<()> {
pub fn build(&self) {
if self.binaries.contains(&"hblang".to_string()) {
let file = self.build_cmd.split_ascii_whitespace().last().unwrap();
let path = format!("sysdata/programs/{}/{}", self.name, file);
let mut bytes = Vec::new();
// compile here
let mut warnings = String::new();
hblang::run_compiler(
let _ = hblang::run_compiler(
&path,
Options {
fmt: true,
resolver: Some(hblang::ABLEOS_PATH_RESOLVER),
..Default::default()
},
out,
&mut warnings,
)?;
&mut bytes,
);
let _ = hblang::run_compiler(&path, Default::default(), &mut bytes);
match std::fs::create_dir("target/programs") {
Ok(_) => (),
Err(e) if e.kind() == std::io::ErrorKind::AlreadyExists => (),
Err(e) => panic!("{}", e),
}
hblang::run_compiler(
&path,
Options {
resolver: Some(hblang::ABLEOS_PATH_RESOLVER),
..Default::default()
},
out,
&mut warnings,
)?;
std::fs::write(format!("target/programs/{}.hbf", self.name), &out)?;
out.clear();
hblang::run_compiler(
&path,
Options {
resolver: Some(hblang::ABLEOS_PATH_RESOLVER),
dump_asm: true,
..Default::default()
},
out,
&mut warnings,
)?;
std::fs::write(format!("target/programs/{}.hba", self.name), &out)?;
out.clear();
let path = format!("target/programs/{}.hbf", self.name);
let mut file = File::create(path).unwrap();
file.write_all(&bytes).unwrap();
}
Ok(())
}
}

View file

@ -1,16 +1,16 @@
mod dev;
use {
core::fmt::Write as _,
derive_more::Display,
dev::Package,
error_stack::{bail, report, Context, Report, Result, ResultExt},
fatfs::{FileSystem, FormatVolumeOptions, FsOptions, ReadWriteSeek},
std::{
fmt::Display,
fs::{self, File},
io::{self, Write},
path::Path,
process::{exit, Command, Stdio},
process::{exit, Command},
},
toml::Value,
};
@ -19,85 +19,41 @@ fn main() -> Result<(), Error> {
let mut args = std::env::args();
args.next();
log::set_logger(&hblang::Logger).unwrap();
log::set_max_level(log::LevelFilter::Error);
match args.next().as_deref() {
Some("build" | "b") => {
let mut release = false;
let mut debuginfo = false;
let mut target = Target::X86_64;
let mut tests = false;
for arg in args {
if arg == "-r" || arg == "--release" {
release = true;
} else if arg == "-d" || arg == "--debuginfo" {
debuginfo = true;
} else if arg == "rv64" || arg == "riscv64" || arg == "riscv64-virt" {
target = Target::Riscv64Virt;
} else if arg == "arm64" || arg == "aarch64" || arg == "aarch64-virt" {
target = Target::Aarch64;
} else if arg == "avx2" {
target = Target::X86_64Avx2;
} else if arg == "--ktest" {
tests = true;
} else {
return Err(report!(Error::InvalidSubCom));
}
}
build(release, target, debuginfo, tests).change_context(Error::Build)
build(release, target).change_context(Error::Build)
}
// Some("test" | "t") => {
// let mut release = false;
// let mut debuginfo = false;
// let mut target = Target::X86_64;
// for arg in args {
// if arg == "-r" || arg == "--release" {
// release = true;
// } else if arg == "-d" || arg == "--debuginfo" {
// debuginfo = true;
// } else if arg == "rv64" || arg == "riscv64" || arg == "riscv64-virt" {
// target = Target::Riscv64Virt;
// } else if arg == "arm64" || arg == "aarch64" || arg == "aarch64-virt" {
// target = Target::Aarch64;
// } else if arg == "avx2" {
// target = Target::X86_64Avx2;
// } else {
// return Err(report!(Error::InvalidSubCom));
// }
// }
// test(release, target, debuginfo).change_context(Error::Build)
// }
Some("run" | "r") => {
let mut release = false;
let mut debuginfo = false;
let mut target = Target::X86_64;
let mut tests = false;
let mut do_accel = true;
for arg in args {
if arg == "-r" || arg == "--release" {
release = true;
} else if arg == "-d" || arg == "--debuginfo" {
debuginfo = true;
} else if arg == "rv64" || arg == "riscv64" || arg == "riscv64-virt" {
target = Target::Riscv64Virt;
} else if arg == "arm64" || arg == "aarch64" || arg == "aarch64-virt" {
target = Target::Aarch64;
} else if arg == "--noaccel" {
do_accel = false;
} else if arg == "avx2" {
target = Target::X86_64Avx2;
} else if arg == "--ktest" {
tests = true;
} else {
return Err(report!(Error::InvalidSubCom));
}
}
build(release, target, debuginfo, tests)?;
run(release, target, do_accel)
build(release, target)?;
run(release, target)
}
Some("help" | "h") => {
println!(concat!(
@ -107,11 +63,8 @@ fn main() -> Result<(), Error> {
" help (h): Print this message\n",
" run (r): Build and run AbleOS in QEMU\n\n",
"Options for build and run:\n",
" -r / --release: build in release mode\n",
" -d / --debuginfo: build with debug info\n",
" --noaccel: run without acceleration (e.g, no kvm)\n",
" --ktest: Enables tests via ktest\n",
"[ rv64 / riscv64 / riscv64-virt / aarch64 / arm64 / aarch64-virt / avx2 ]: sets target"
" -r: build in release mode",
" [target]: sets target"
),);
Ok(())
}
@ -234,43 +187,21 @@ TERM_BACKDROP={}
let modules = value.get_mut("modules").unwrap().as_table_mut().unwrap();
// let mut real_modules = modules.clone();
let mut errors = String::new();
let mut out = Vec::new();
modules
.into_iter()
.map(|(_, value)| -> Result<(), io::Error> {
if value.is_table() {
let path = get_path_without_boot_prefix(
value.get("path").expect("You must have `path` as a value"),
)
.unwrap()
.split(".")
.next()
.unwrap();
let p = Package::load_from_file(
format!("sysdata/programs/{}/meta.toml", path).to_owned(),
);
match p.build(&mut out) {
Ok(()) => {}
Err(_) => {
writeln!(errors, "========= while compiling {} =========", path)
.unwrap();
errors.push_str(core::str::from_utf8(&out).expect("no"));
out.clear();
}
}
}
Ok(())
})
.for_each(drop);
if !errors.is_empty() {
let _ = writeln!(errors, "!!! STOPPING DUE TO PREVIOUS ERRORS !!!");
std::eprint!("{errors}");
continue;
}
modules.into_iter().for_each(|(key, value)| {
if value.is_table() {
let path = get_path_without_boot_prefix(
value.get("path").expect("You must have `path` as a value"),
)
.unwrap()
.split(".")
.next()
.unwrap();
let p = Package::load_from_file(
format!("sysdata/programs/{}/meta.toml", path).to_owned(),
);
p.build();
}
});
modules.into_iter().for_each(|(_key, value)| {
if value.is_table() {
let path = value.get("path").expect("You must have `path` as a value");
@ -305,7 +236,7 @@ TERM_BACKDROP={}
let bootdir = fs.root_dir().create_dir("efi")?.create_dir("boot")?;
let mut f = fs.root_dir().create_file("limine.cfg")?;
let _ = f.write(limine_str.as_bytes())?;
let a = f.write(limine_str.as_bytes())?;
drop(f);
io::copy(
@ -339,7 +270,7 @@ fn copy_file_to_img(fpath: &str, fs: &FileSystem<File>) {
.expect("Copy failed");
}
fn build(release: bool, target: Target, debuginfo: bool, tests: bool) -> Result<(), Error> {
fn build(release: bool, target: Target) -> Result<(), Error> {
let fs = get_fs().change_context(Error::Io)?;
let mut com = Command::new("cargo");
com.current_dir("kernel");
@ -347,13 +278,6 @@ fn build(release: bool, target: Target, debuginfo: bool, tests: bool) -> Result<
if release {
com.arg("-r");
}
if debuginfo {
com.env("RUSTFLAGS", "-Cdebug-assertions=true");
}
if tests {
com.args(["--features", "ktest"]);
}
if target == Target::Riscv64Virt {
com.args(["--target", "targets/riscv64-virt-ableos.json"]);
@ -361,9 +285,6 @@ fn build(release: bool, target: Target, debuginfo: bool, tests: bool) -> Result<
if target == Target::Aarch64 {
com.args(["--target", "targets/aarch64-virt-ableos.json"]);
}
if target == Target::X86_64Avx2 {
com.args(["--target", "targets/x86_64_v3-ableos.json"]);
}
match com.status() {
Ok(s) if s.code() != Some(0) => bail!(Error::Build),
@ -377,10 +298,6 @@ fn build(release: bool, target: Target, debuginfo: bool, tests: bool) -> Result<
path.push_str("_x86-64");
"target/x86_64-ableos"
}
Target::X86_64Avx2 => {
path.push_str("_x86-64");
"target/x86_64_v3-ableos"
}
Target::Riscv64Virt => "target/riscv64-virt-ableos",
Target::Aarch64 => {
path.push_str("_aarch64");
@ -403,72 +320,25 @@ fn build(release: bool, target: Target, debuginfo: bool, tests: bool) -> Result<
.change_context(Error::Io)
}
fn run(release: bool, target: Target, do_accel: bool) -> Result<(), Error> {
let target_str = match target {
Target::X86_64 | Target::X86_64Avx2 => "qemu-system-x86_64",
Target::Riscv64Virt => "qemu-system-riscv64",
Target::Aarch64 => "qemu-system-aarch64",
fn run(release: bool, target: Target) -> Result<(), Error> {
let mut com = match target {
Target::X86_64 => Command::new("qemu-system-x86_64"),
Target::Riscv64Virt => Command::new("qemu-system-riscv64"),
Target::Aarch64 => Command::new("qemu-system-aarch64"),
};
let (mut com, mut com2) = (Command::new(target_str), Command::new(target_str));
let ovmf_path = fetch_ovmf(target);
#[cfg(target_arch = "x86_64")]
let accel = if do_accel {
let supported = String::from_utf8(
com2.args(["--accel", "help"])
.stdout(Stdio::piped())
.stderr(Stdio::piped())
.spawn()
.unwrap()
.wait_with_output()
.unwrap()
.stdout,
)
.unwrap();
let cpuid = raw_cpuid::CpuId::new();
let vmx = cpuid.get_feature_info().unwrap().has_vmx();
let svm = cpuid.get_svm_info().is_some();
if supported.contains("kvm") && (vmx || svm) {
"accel=kvm"
} else if cpuid
.get_processor_brand_string()
.filter(|a| a.as_str() == "GenuineIntel")
.is_some()
&& supported.contains("hax")
&& vmx
{
"accel=hax"
} else if supported.contains("whpx") {
"accel=whpx"
} else {
"accel=tcg"
}
} else {
"accel=tcg"
};
#[cfg(not(target_arch = "x86_64"))]
let accel = "accel=tcg";
match target {
Target::X86_64 | Target::X86_64Avx2 => {
Target::X86_64 => {
#[rustfmt::skip]
com.args([
"-bios", &ovmf_path.change_context(Error::OvmfFetch)?,
"-drive", "file=target/disk.img,format=raw",
"-device", "vmware-svga",
// "-serial", "stdio",
"-m", "2G",
"-smp", "1",
"-audiodev",
"pa,id=speaker",
"-machine",
"pcspk-audiodev=speaker",
"-parallel", "none",
"-monitor", "none",
"-machine", accel,
"-cpu", "max",
"-device", "isa-debug-exit,iobase=0xf4,iosize=0x04",
"-m", "4G",
"-smp", "cores=4",
"-enable-kvm",
"-cpu", "host",
"-device", "isa-debug-exit,iobase=0xf4,iosize=0x04"
]);
}
Target::Riscv64Virt => {
@ -489,7 +359,7 @@ fn run(release: bool, target: Target, do_accel: bool) -> Result<(), Error> {
#[rustfmt::skip]
com.args([
"-M", "virt",
"-cpu", "max",
"-cpu", "cortex-a72",
"-device", "ramfb",
"-device", "qemu-xhci",
"-device", "usb-kbd",
@ -512,7 +382,7 @@ fn run(release: bool, target: Target, do_accel: bool) -> Result<(), Error> {
fn fetch_ovmf(target: Target) -> Result<String, OvmfFetchError> {
let (ovmf_url, ovmf_path) = match target {
Target::X86_64 | Target::X86_64Avx2 => (
Target::X86_64 => (
"https://retrage.github.io/edk2-nightly/bin/RELEASEX64_OVMF.fd",
"target/RELEASEX64_OVMF.fd",
),
@ -534,12 +404,12 @@ fn fetch_ovmf(target: Target) -> Result<String, OvmfFetchError> {
Ok(_) => return Ok(ovmf_path.to_owned()),
Err(e) => return Err(report!(e).change_context(OvmfFetchError::Io)),
};
let req = ureq::get(ovmf_url)
.call()
let mut bytes = reqwest::blocking::get(ovmf_url)
.map_err(Report::from)
.change_context(OvmfFetchError::Fetch)?;
std::io::copy(&mut req.into_reader(), &mut file)
bytes
.copy_to(&mut file)
.map_err(Report::from)
.change_context(OvmfFetchError::Io)?;
@ -548,11 +418,11 @@ fn fetch_ovmf(target: Target) -> Result<String, OvmfFetchError> {
#[derive(Debug, Display)]
enum OvmfFetchError {
#[display("Failed to fetch OVMF package")]
#[display(fmt = "Failed to fetch OVMF package")]
Fetch,
#[display("No OVMF package available")]
#[display(fmt = "No OVMF package available")]
Empty,
#[display("IO Error")]
#[display(fmt = "IO Error")]
Io,
}
@ -561,33 +431,30 @@ impl Context for OvmfFetchError {}
#[derive(Clone, Copy, PartialEq, Eq)]
enum Target {
X86_64,
X86_64Avx2,
Riscv64Virt,
Aarch64,
}
#[allow(unused)]
#[derive(Debug, Display)]
enum Error {
#[display("Failed to build the kernel")]
#[display(fmt = "Failed to build the kernel")]
Build,
#[display("Missing or invalid subcommand (available: build, run)")]
#[display(fmt = "Missing or invalid subcommand (available: build, run)")]
InvalidSubCom,
#[display("IO Error")]
#[display(fmt = "IO Error")]
Io,
#[display("Failed to spawn a process")]
#[display(fmt = "Failed to spawn a process")]
ProcessSpawn,
#[display("Failed to fetch UEFI firmware")]
#[display(fmt = "Failed to fetch UEFI firmware")]
OvmfFetch,
#[display("Failed to assemble Holey Bytes code")]
#[display(fmt = "Failed to assemble Holey Bytes code")]
Assembler,
#[display("QEMU Error: {}", "fmt_qemu_err(*_0)")]
#[display(fmt = "QEMU Error: {}", "fmt_qemu_err(*_0)")]
Qemu(Option<i32>),
}
impl Context for Error {}
#[allow(dead_code)]
fn fmt_qemu_err(e: Option<i32>) -> impl Display {
struct W(Option<i32>);
impl Display for W {

View file

@ -1,7 +1,3 @@
[toolchain]
# old toolchain
# channel = "nightly-2024-07-27"
# last stable
# channel = "nightly-2024-11-20"
channel = "nightly"
channel = "nightly-2024-05-17"
components = ["rust-src", "llvm-tools"]

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@ -1,10 +0,0 @@
Tamsyn font is free. You are hereby granted permission to use, copy, modify,
and distribute it as you see fit.
Tamsyn font is provided "as is" without any express or implied warranty.
The author makes no representations about the suitability of this font for
a particular purpose.
In no event will the author be held liable for damages arising from the use
of this font.

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@ -1,24 +1,25 @@
@auto_increment
// A comment
//@auto_increment
enum LogLevel {
Error = 0,
Warn,
Info,
Debug,
Trace,
Warn = 1,
Info = 2,
Debug = 3,
Trace = 4,
}
@auto_increment
//@auto_increment
enum LogResult {
Err = 0,
Ok,
Ok = 1,
}
struct Log {
log_level: LogLevel,
}
@visibility(public)
//@visibility(public)
protocol Log {
fn log(Log) -> LogResult;
fn flush() -> LogResult;
}
}

View file

@ -0,0 +1,3 @@
protocol Foo{
fn bar(i32, u8, bool) -> void;
}

View file

@ -1,4 +0,0 @@
(horizontal
spacing : 10
(label "hi")
(label "goodbye"))

View file

@ -1 +0,0 @@
(label "hello")

View file

@ -1,3 +0,0 @@
(vertical
(label "hello")
(label "hello" color:red))

View file

@ -0,0 +1,14 @@
Element := struct {
width: int,
height: int,
x: u16,
y: u16,
id: int,
}
create_element := fn(): Element {
return Element.(0, 0, 0, 0, 0)
}

View file

@ -0,0 +1,3 @@
FrameID := struct {
}

View file

@ -1,43 +1,12 @@
stn := @use("../../stn/src/lib.hb");
.{string, memory, buffer, log} := stn
render := @use("../../../libraries/render/src/lib.hb")
input := @use("../../intouch/src/lib.hb")
widgets := @use("widgets/widgets.hb")
ui := @use("ui.hb")
WindowID := struct {
host_id: int,
window_id: int,
}
VoidWindowID := WindowID.(0, 0)
create_window := fn(): WindowID {
return WindowID.(1, 2)
}
create_window := fn(channel: int): ^render.Surface {
// get the horizon buffer
// request a new window and provide the callback buffer
// wait to recieve a message
windowing_system_buffer := buffer.search("XHorizon\0")
mem_buf := memory.request_page(1)
if windowing_system_buffer == 0 {
return @as(^render.Surface, idk)
} else {
x := 0
loop if x > 1000 break else x += 1
ret := buffer.recv([u8; 4096], windowing_system_buffer, mem_buf)
if ret == null {
log.info("No messages\0")
}
if *mem_buf == 0 {
log.info("No messages\0")
}
return @as(^render.Surface, idk)
}
update_ui := fn(window_id: WindowID): void {
return
}

View file

@ -0,0 +1,3 @@
ui_lisp_text_example := "(text id_1)\0";

View file

@ -1,47 +0,0 @@
stn := @use("../../../libraries/stn/src/lib.hb");
.{string, log} := stn;
.{Vec2} := stn.math
render := @use("../../../libraries/render/src/lib.hb");
.{Surface} := render;
.{Font} := render.text
UI := struct {raw: ^u8, raw_length: uint, is_dirty: bool, surface: Surface, // Each child has their WidgetType as their first byte
// children: ^^u8,
}
render_ui := fn(surface: Surface, ui: UI): void {
if ui.is_dirty {
render.clear(ui.surface, render.black)
ui.is_dirty = false
}
pos := Vec2(uint).(0, 0)
render.put_surface(surface, ui.surface, pos, false)
}
sexpr_parser := fn(sexpr: ^u8): UI {
cursor := sexpr
paren_balance := 0
loop {
if *cursor == 0 {
if paren_balance != 0 {
log.error("Unbalanced Parens\0")
}
break
} else if *cursor == 40 {
log.info("Open paren\0")
paren_balance += 1
} else if *cursor == 41 {
log.info("Closed paren\0")
paren_balance -= 1
}
cursor += 1
}
length := string.length(sexpr)
ui_surface := render.new_surface(100, 100)
return UI.(sexpr, length, true, ui_surface)
}

View file

@ -1,13 +0,0 @@
render := @use("../../../../libraries/render/src/lib.hb");
.{Surface} := render
Image := struct {
magic: uint,
is_dirty: bool,
surface: Surface,
}
image_from_surface := fn(surface: Surface): Image {
img := Image.(4, true, surface)
return img
}

View file

@ -1,46 +0,0 @@
stn := @use("../../../../libraries/stn/src/lib.hb");
.{string, log} := stn;
.{Vec2} := stn.math
render := @use("../../../../libraries/render/src/lib.hb");
.{Surface, Color} := render;
.{Font} := render.text
Label := struct {
magic: uint,
is_dirty: bool,
surface: Surface,
text: ^u8,
text_length: uint,
bg: Color,
fg: Color,
new_label := fn(text: ^u8, width: uint): Self {
text_surface := render.new_surface(width, 20)
text_length := string.length(text)
label := Self.(3, true, text_surface, text, text_length, render.black, render.white)
return label
}
set_label_text := fn(self: Self, text: ^u8): void {
text_length := string.length(text)
self.is_dirty = true
self.text = text
self.text_length = text_length
}
$set_color := fn(self: Self, bg: Color, fg: Color): void {
self.bg = bg
self.fg = fg
self.is_dirty = true
}
}
render_label_to_surface := fn(surface: Surface, label: Label, font: Font, pos: Vec2(uint)): void {
if label.is_dirty {
render.clear(label.surface, label.bg)
render.put_text(label.surface, font, .(0, 0), label.fg, label.text)
}
render.put_surface(surface, label.surface, pos, false)
}

View file

@ -1,7 +0,0 @@
NoWidget := 0
VerticalWidgetType := 1
HorizontalWidgetType := 2
LabelWidgetType := 3
ImageWidgetType := 4

View file

@ -1,36 +0,0 @@
// Widget types
// End types
stn := @use("../../../../libraries/stn/src/lib.hb");
.{string, log} := stn;
.{Vec2} := stn.math
render := @use("../../../../libraries/render/src/lib.hb");
.{Surface} := render;
.{Font} := render.text
widget_types := @use("widget_types.hb")
label := @use("label.hb")
image := @use("image.hb")
Size := struct {
min_width: int,
max_width: int,
min_height: int,
max_height: int,
}
Vertical := packed struct {
magic: uint,
// array of children, idk
// use a vec or linked list or whatever
children: ^^u8,
}
Horizontal := packed struct {
magic: uint,
// array of children, idk
// use a vec or linked list or whatever
children: ^^u8,
}

View file

@ -1,21 +0,0 @@
structures := @use("structures.hb")
version := @use("version.hb")
// Refer to here https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/VkApplicationInfo.html
ApplicationInfo := struct {
sType: int,
pNext: ^int,
application_name: ^u8,
application_version: int,
engine_name: ^u8,
engine_version: int,
api_version: int,
}
new_application_info := fn(app_name: ^u8, app_version: int, engine_name: ^u8, engine_version: int, api_version: int): ApplicationInfo {
app_info_type := structures.ApplicationInfoType
app_info := ApplicationInfo.(app_info_type, 0, app_name, app_version, engine_name, engine_version, api_version)
return app_info
}

View file

@ -1,14 +0,0 @@
OutOfHostMemory := -1
OutOfDeviceMemory := -2
InitializationFailed := -3
DeviceLost := -4
MemoryMapFailed := -5
LayerNotPresent := -6
ExtensionNotPresent := -7
FeatureNotPresent := -8
IncompatibleDriver := -9
TooManyObjects := -10
FormatNotSupported := -11
FragmentedPool := -12
Unknown := -13

View file

@ -1,10 +0,0 @@
Extent3D := struct {
width: int,
height: int,
depth: int,
}
Extent2D := struct {
width: int,
height: int,
}

View file

@ -1,35 +0,0 @@
application := @use("application.hb");
.{ApplicationInfo} := application
structures := @use("structures.hb")
errors := @use("errors.hb")
// https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/VkInstanceCreateInfo.html
InstanceCreateInfo := struct {
sType: int,
pNext: int,
flags: int,
application_info: ^ApplicationInfo,
enabled_layer_count: int,
ppEnabledLayerNames: int,
enabled_extension_count: int,
ppEnabledExtensionNames: int,
}
new_create_info := fn(application_info: ^ApplicationInfo): InstanceCreateInfo {
create_info_type := structures.InstanceCreateInfoType
enabled_layer_count := 0
create_info := InstanceCreateInfo.(create_info_type, 0, 0, application_info, enabled_layer_count, 0, 0, 0)
return create_info
}
// TODO
Instance := struct {inner: int}
void_instance := fn(): Instance {
return Instance.(0)
}
create_instance := fn(create_info: ^InstanceCreateInfo, allocator_callback: int, new_obj: ^Instance): int {
return errors.IncompatibleDriver
}

View file

@ -1,17 +1,7 @@
application := @use("application.hb")
VK_VERSION_MAJOR := 1;
VK_VERSION_MINOR := 0;
results := @use("results.hb")
errors := @use("errors.hb")
offsets := @use("offset.hb")
extends := @use("extends.hb")
rect := @use("rect.hb")
structures := @use("structures.hb")
instance := @use("instance.hb")
version := @use("version.hb")
init_vulkan := fn(): int {
return errors.IncompatibleDriver
init_vulkan := fn(): void {
return
}

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