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Author SHA1 Message Date
koniifer 41b339dfd0 omfg it's fixed 🙏 2024-09-16 21:56:52 +01:00
koniifer a8d38e04c4 let's just use strings for now 2024-09-16 20:45:19 +01:00
koniifer 1f4fce0f66 please bugs begone 2024-09-16 20:15:51 +01:00
koniifer b021fc5b86 bug squashing & testing 2024-09-15 17:01:29 +01:00
157 changed files with 2005 additions and 4642 deletions

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

1247
Cargo.lock generated

File diff suppressed because it is too large Load diff

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"> <img src="https://img.shields.io/liberapay/patrons/AbleTheAbove.svg?logo=liberapay">
# Compiling # 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 # 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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@ -72,27 +72,6 @@ pub fn new(development_type: DevelopmentType, name: String) {
let readme_contents = format!("# {}", name); let readme_contents = format!("# {}", name);
readme_file.write_all(readme_contents.as_bytes()).unwrap(); 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); let src_folder_path_string = format!("{}/src", project_folder_path_string);
std::fs::create_dir(src_folder_path_string.clone()).unwrap(); std::fs::create_dir(src_folder_path_string.clone()).unwrap();
@ -138,8 +117,8 @@ fn build(name: String) {
} }
} }
pub fn build_program(_name: String) {} pub fn build_program(name: String) {}
pub fn build_library(_name: String) {} pub fn build_library(name: String) {}
fn help() { fn help() {
println!( println!(

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

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@ -5,10 +5,8 @@ version = "0.2.0"
[dependencies] [dependencies]
# embedded-graphics = "0.8" embedded-graphics = "0.8"
hbvm = { git = "https://git.ablecorp.us/AbleOS/holey-bytes.git", features = [ hbvm.git = "https://git.ablecorp.us/ableos/holey-bytes.git"
"nightly",
] }
log = "0.4" log = "0.4"
spin = "0.9" spin = "0.9"
slab = { version = "0.4", default-features = false } slab = { version = "0.4", default-features = false }
@ -16,14 +14,21 @@ uart_16550 = { version = "0.3", features = ["nightly"] }
xml.git = "https://git.ablecorp.us/ableos/ableos_userland" xml.git = "https://git.ablecorp.us/ableos/ableos_userland"
versioning.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" # able_graphics_library.git = "https://git.ablecorp.us/ableos/ableos_userland"
hashbrown = { version = "0.15", features = ["nightly"] } hashbrown = { version = "0.14", features = ["nightly"] }
limine = "0.1"
[dependencies.limine]
version = "0.1"
#git = "https://github.com/limine-bootloader/limine-rs"
[dependencies.crossbeam-queue] [dependencies.crossbeam-queue]
version = "0.3" version = "0.3"
default-features = false default-features = false
features = ["alloc", "nightly"] features = ["alloc", "nightly"]
# [dependencies.clparse]
# git = "https://git.ablecorp.us/ableos/ableos_userland"
# default-features = false
[dependencies.derive_more] [dependencies.derive_more]
version = "1" version = "1"
default-features = false default-features = false
@ -44,7 +49,7 @@ features = [
[target.'cfg(target_arch = "x86_64")'.dependencies] [target.'cfg(target_arch = "x86_64")'.dependencies]
x86_64 = "0.15" x86_64 = "0.15"
x2apic = "0.4" x2apic = "0.4"
# virtio-drivers = "0.7" virtio-drivers = "0.7"
[target.'cfg(target_arch = "riscv64")'.dependencies] [target.'cfg(target_arch = "riscv64")'.dependencies]
sbi = "0.2.0" sbi = "0.2.0"

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@ -38,7 +38,6 @@ SECTIONS
.data : { .data : {
*(.data .data.*) *(.data .data.*)
*(.got .got.*)
} :data } :data
.bss : { .bss : {

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@ -1,5 +1,6 @@
use { use {
crate::{device_tree::DeviceTree, kmain::DEVICE_TREE}, crate::{alloc::string::ToString, device_tree::DeviceTree, kmain::DEVICE_TREE},
alloc::string::String,
core::arch::asm, core::arch::asm,
xml::XMLElement, xml::XMLElement,
}; };
@ -27,7 +28,7 @@ fn collect_cpu_info(device_tree: &mut DeviceTree) {
cpus.push(cpu); cpus.push(cpu);
} }
fn cpu_id<'a>() -> (&'a str, u64) { fn cpu_id() -> (String, u64) {
let mut cpu_id: u64; let mut cpu_id: u64;
unsafe { unsafe {
asm!("mrs {cpu_id}, MIDR_EL1", asm!("mrs {cpu_id}, MIDR_EL1",
@ -38,11 +39,11 @@ fn cpu_id<'a>() -> (&'a str, u64) {
let cpu_name = match cpu_id { let cpu_name = match cpu_id {
// the source of these two was a stackoverflow question // the source of these two was a stackoverflow question
// https://raspberrypi.stackexchange.com/questions/117175/how-do-i-read-the-cpuid-in-aarch64-asm // https://raspberrypi.stackexchange.com/questions/117175/how-do-i-read-the-cpuid-in-aarch64-asm
0x410FD034 => "Cortex-A53", 0x410FD034 => "Cortex-A53".to_string(),
0x410FD083 => "Cortex-A72", 0x410FD083 => "Cortex-A72".to_string(),
// the source of this one was checking the cpu id :thinking: // the source of this one was checking the cpu id :thinking:
0x410FD493 => "Neoverse N2", 0x410FD493 => "Neoverse N2".to_string(),
_ => "Unknown", _ => "Unknown".to_string(),
}; };
log::trace!("CPU Name: {cpu_name} - CPU ID: 0x{:X}", cpu_id); log::trace!("CPU Name: {cpu_name} - CPU ID: 0x{:X}", cpu_id);

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@ -3,7 +3,7 @@ pub static SERIAL_CONSOLE: Mutex<SerialConsole> = Mutex::new(SerialConsole {
uart: 0x09000000 as *mut u8, uart: 0x09000000 as *mut u8,
}); });
pub struct SerialConsole { struct SerialConsole {
uart: *mut u8, uart: *mut u8,
} }
@ -22,7 +22,7 @@ unsafe impl Send for SerialConsole {}
pub fn log(args: core::fmt::Arguments<'_>) -> core::fmt::Result { pub fn log(args: core::fmt::Arguments<'_>) -> core::fmt::Result {
SERIAL_CONSOLE.lock().write_fmt(args)?; SERIAL_CONSOLE.lock().write_fmt(args)?;
// TERMINAL_LOGGER.lock().write_fmt(args)?; TERMINAL_LOGGER.lock().write_fmt(args)?;
Ok(()) Ok(())
} }

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@ -14,29 +14,3 @@ arch_cond!(
riscv64: "riscv64", riscv64: "riscv64",
x86_64: "x86_64", 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)
});

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@ -11,9 +11,7 @@ static mut LAPIC: LocalApic = unsafe { MaybeUninit::zeroed().assume_init() };
static mut IDT: InterruptDescriptorTable = unsafe { MaybeUninit::zeroed().assume_init() }; static mut IDT: InterruptDescriptorTable = unsafe { MaybeUninit::zeroed().assume_init() };
#[repr(u8)] #[repr(u8)]
#[derive(Debug, Eq, Hash, PartialEq)] enum Interrupt {
pub enum Interrupt {
Timer = 32, Timer = 32,
ApicErr = u8::MAX - 1, ApicErr = u8::MAX - 1,
Spurious = u8::MAX, Spurious = u8::MAX,
@ -62,49 +60,17 @@ extern "x86-interrupt" fn page_fault(
} }
extern "x86-interrupt" fn timer(_isf: InterruptStackFrame) { extern "x86-interrupt" fn timer(_isf: InterruptStackFrame) {
// interrupt(Interrupt::Timer);
unsafe { unsafe {
LAPIC.end_of_interrupt(); LAPIC.end_of_interrupt();
} }
} }
extern "x86-interrupt" fn apic_err(_: InterruptStackFrame) { extern "x86-interrupt" fn apic_err(_: InterruptStackFrame) {
interrupt(Interrupt::ApicErr);
panic!("Internal APIC error"); panic!("Internal APIC error");
} }
extern "x86-interrupt" fn spurious(_: InterruptStackFrame) { extern "x86-interrupt" fn spurious(_: InterruptStackFrame) {
interrupt(Interrupt::Spurious);
unsafe { unsafe {
LAPIC.end_of_interrupt(); LAPIC.end_of_interrupt();
} }
} }
fn interrupt(interrupt_type: Interrupt) {
use crate::arch::INTERRUPT_LIST;
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)
}
}
// log::info!("{}", buffer);
}
}

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@ -10,7 +10,7 @@ pub mod graphics;
pub(crate) mod interrupts; pub(crate) mod interrupts;
pub mod logging; pub mod logging;
pub mod pci; pub mod pci;
// pub mod virtio; pub mod virtio;
pub use {logging::log, memory::PAGE_SIZE}; pub use {logging::log, memory::PAGE_SIZE};
@ -30,11 +30,9 @@ const INITIAL_KERNEL_HEAP_SIZE: *const () = _initial_kernel_heap_size as _;
#[no_mangle] #[no_mangle]
#[naked] #[naked]
#[cfg(not(target_feature = "avx2"))]
unsafe extern "C" fn _kernel_start() -> ! { unsafe extern "C" fn _kernel_start() -> ! {
// Initialise SSE, then jump to kernel entrypoint // Initialise SSE and jump to kernel entrypoint
core::arch::naked_asm!( core::arch::asm!(
// Initialise SSE
"mov rax, cr0", "mov rax, cr0",
"and ax, 0xfffb", "and ax, 0xfffb",
"or ax, 0x2", "or ax, 0x2",
@ -42,74 +40,16 @@ unsafe extern "C" fn _kernel_start() -> ! {
"mov rax, cr4", "mov rax, cr4",
"or ax, 3 << 9", "or ax, 3 << 9",
"mov cr4, rax", "mov cr4, rax",
// Jump to the kernel entry point
"jmp {}", "jmp {}",
sym start, 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() -> ! { unsafe extern "C" fn start() -> ! {
logging::init(); logging::init();
crate::logger::init().expect("failed to set logger"); 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); static HDHM_REQ: HhdmRequest = HhdmRequest::new(0);
memory::init_pt(VirtAddr::new( memory::init_pt(VirtAddr::new(
@ -188,7 +128,7 @@ unsafe extern "C" fn start() -> ! {
// TODO: Add in rdseed and rdrand as sources for randomness // TODO: Add in rdseed and rdrand as sources for randomness
let _rand = xml::XMLElement::new("Random"); let _rand = xml::XMLElement::new("Random");
log::debug!("Getting boot modules"); log::trace!("Getting boot modules");
let bm = MOD_REQ.get_response().get(); let bm = MOD_REQ.get_response().get();
let mut bootmodules = alloc::vec::Vec::new(); let mut bootmodules = alloc::vec::Vec::new();
@ -226,7 +166,7 @@ unsafe extern "C" fn start() -> ! {
break; break;
} }
} }
log::debug!("Boot module count: {:?}", bootmodules.len()); log::info!("Boot module count: {:?}", bootmodules.len());
assert_eq!(bm.module_count, bootmodules.len() as u64); assert_eq!(bm.module_count, bootmodules.len() as u64);
} }
@ -249,7 +189,6 @@ unsafe extern "C" fn start() -> ! {
/// Spin loop /// Spin loop
pub fn spin_loop() -> ! { pub fn spin_loop() -> ! {
loop { loop {
core::hint::spin_loop();
x86_64::instructions::hlt() x86_64::instructions::hlt()
} }
} }

View file

@ -8,12 +8,13 @@ pub struct PciDeviceInfo {
pub full_class: PciFullClass, pub full_class: PciFullClass,
pub rev_id: u8, pub rev_id: u8,
} }
use crate::alloc::string::ToString;
/// Enumerate PCI devices and run initialisation routines on ones we support /// Enumerate PCI devices and run initialisation routines on ones we support
pub fn init(device_tree: &mut DeviceTree) { pub fn init(device_tree: &mut DeviceTree) {
device_tree device_tree
.devices .devices
.insert("Unidentified PCI", alloc::vec![]); .insert("Unidentified PCI".to_string(), alloc::vec![]);
let mut devices = alloc::vec![]; let mut devices = alloc::vec![];
for bus in 0..=255 { for bus in 0..=255 {
@ -46,8 +47,7 @@ pub fn init(device_tree: &mut DeviceTree) {
pci_info.set_attribute("id", id); pci_info.set_attribute("id", id);
pci_info.set_attribute("device", device_info.device); pci_info.set_attribute("device", device_info.device);
pci_info.set_attribute("vendor", vendor); pci_info.set_attribute("vendor", vendor);
pci_info.set_attribute("bus", bus); pci_info.set_attribute("class", device_info.full_class.to_string());
pci_info.set_attribute("class", device_info.full_class);
dev.set_child(pci_info); dev.set_child(pci_info);
devices.push((dev_type, dev)); devices.push((dev_type, dev));
} }
@ -68,8 +68,7 @@ pub fn check_device(bus: u8, device: u8) -> Option<PciDeviceInfo> {
return None; return None;
} }
let (reg2, addr) = unsafe { pci_config_read_2(bus, device, 0, 0x8) }; let reg2 = unsafe { pci_config_read(bus, device, 0, 0x8) };
log::debug!("pci device-({}) addr {} is {}", device, addr, reg2);
let class = ((reg2 >> 16) & 0x0000_FFFF) as u16; let class = ((reg2 >> 16) & 0x0000_FFFF) as u16;
let pci_class = PciFullClass::from_u16(class); let pci_class = PciFullClass::from_u16(class);
let header_type = get_header_type(bus, device, 0); let header_type = get_header_type(bus, device, 0);
@ -460,7 +459,9 @@ unsafe fn pci_config_read(bus: u8, device: u8, func: u8, offset: u8) -> u32 {
let func = func as u32; let func = func as u32;
let offset = offset as u32; let offset = offset as u32;
// construct address param // 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 // write address
Port::new(0xCF8).write(address); Port::new(0xCF8).write(address);
@ -468,20 +469,6 @@ unsafe fn pci_config_read(bus: u8, device: u8, func: u8, offset: u8) -> u32 {
Port::new(0xCFC).read() 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) { unsafe fn pci_config_write(bus: u8, device: u8, func: u8, offset: u8, value: u32) {
let bus = bus as u32; let bus = bus as u32;
let device = device as u32; let device = device as u32;

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

View file

@ -1,6 +1,11 @@
//! A tree of hardware devices //! 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. /// A device object.
/// TODO define device /// TODO define device
@ -9,11 +14,11 @@ pub type Device = xml::XMLElement;
/// A tree of devices /// A tree of devices
// TODO: alphabetize this list // TODO: alphabetize this list
#[derive(Debug)] #[derive(Debug)]
pub struct DeviceTree<'a> { pub struct DeviceTree {
/// The device tree /// 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 /// Build the device tree. Does not populate the device tree
pub fn new() -> Self { pub fn new() -> Self {
let mut dt = Self { let mut dt = Self {
@ -42,7 +47,7 @@ impl<'a> DeviceTree<'a> {
} }
} }
use crate::{device_tree, tab, utils::TAB}; use crate::{device_tree, tab, utils::TAB};
impl<'a> fmt::Display for DeviceTree<'a> { impl fmt::Display for DeviceTree {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
writeln!(f)?; writeln!(f)?;
for (device_type, devices) in &self.devices { 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

@ -1,40 +1,21 @@
//! Environment call handling routines //! Environment call handling routines
use {alloc::boxed::Box, core::cell::LazyCell, hbvm::mem::Address}; use crate::holeybytes::kernel_services::{
use crate::{
holeybytes::{
kernel_services::{
block_read, dt_msg_handler::dt_msg_handler, logging_service::log_msg_handler, block_read, dt_msg_handler::dt_msg_handler, logging_service::log_msg_handler,
service_definition_service::sds_msg_handler, service_definition_service::sds_msg_handler,
},
ExecThread,
},
kmain::EXECUTOR,
task::Executor,
}; };
use { use {
super::Vm, super::Vm,
crate::{arch, ipc::buffer::IpcBuffer, kmain::IPC_BUFFERS}, crate::{arch, ipc::buffer::IpcBuffer, kmain::IPC_BUFFERS},
hbvm::value::Value,
log::{debug, error, info, trace}, log::{debug, error, info, trace},
}; };
#[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) { pub fn handler(vm: &mut Vm) {
let ecall_number = vm.registers[2].cast::<u64>(); let ecall_number = vm.registers[2].cast::<u64>();
// log::info!("eca called :pensive:");
// debug!("Ecall number {:?}", ecall_number);
//info!("Register dump: {:?}", vm.registers);
match ecall_number { match ecall_number {
0 => { 0 => {
@ -47,9 +28,9 @@ pub fn handler(vm: &mut Vm) {
1 => { 1 => {
// Make buffer // Make buffer
let bounded = match vm.registers[3] { let bounded = match vm.registers[3].cast::<u64>() {
Value(0) => false, 0 => false,
Value(1) => true, 1 => true,
_ => { _ => {
panic!("Bad"); panic!("Bad");
} }
@ -58,19 +39,22 @@ pub fn handler(vm: &mut Vm) {
let length = vm.registers[4].cast::<u64>(); let length = vm.registers[4].cast::<u64>();
let mut buffs = IPC_BUFFERS.lock(); let mut buffs = IPC_BUFFERS.lock();
let abc;
let buff_id = arch::hardware_random_u64();
buffs.insert(
buff_id,
match bounded { match bounded {
false => IpcBuffer::new(false, 0), false => {
true => IpcBuffer::new(true, length), abc = IpcBuffer::new(false, 0);
}, }
); true => {
abc = IpcBuffer::new(true, length);
}
};
let buff_id = arch::hardware_random_u64();
buffs.insert(buff_id, abc);
info!("Buffer ID: {}", buff_id);
vm.registers[1] = hbvm::value::Value(buff_id); vm.registers[1] = hbvm::value::Value(buff_id);
} }
2 => { 2 => {
log::error!("Oops, deleting buffers is not implemented.")
// Delete buffer // Delete buffer
} }
3 => { 3 => {
@ -79,6 +63,7 @@ pub fn handler(vm: &mut Vm) {
let mem_addr = vm.registers[4].cast::<u64>(); let mem_addr = vm.registers[4].cast::<u64>();
let length = vm.registers[5].cast::<u64>() as usize; let length = vm.registers[5].cast::<u64>() as usize;
trace!("IPC address: {:?}", mem_addr); trace!("IPC address: {:?}", mem_addr);
use alloc::vec::Vec;
match buffer_id { match buffer_id {
0 => match sds_msg_handler(vm, mem_addr, length) { 0 => match sds_msg_handler(vm, mem_addr, length) {
@ -96,15 +81,25 @@ pub fn handler(vm: &mut Vm) {
Err(_) => {} Err(_) => {}
} }
} }
#[cfg(not(target_arch = "x86_64"))]
3 => info!("TODO: implement whatever buffer 3 does for no x86_64"),
#[cfg(target_arch = "x86_64")] #[cfg(target_arch = "x86_64")]
3 => { 3 => {
unsafe fn x86_out<T: x86_64::instructions::port::PortWrite>(
address: u16,
value: T,
) {
x86_64::instructions::port::Port::new(address).write(value);
}
unsafe fn x86_in<T: x86_64::instructions::port::PortRead>(address: u16) -> T {
x86_64::instructions::port::Port::new(address).read()
}
let msg_vec = block_read(mem_addr, length); let msg_vec = block_read(mem_addr, length);
let msg_type = msg_vec[0]; let msg_type = msg_vec[0];
match msg_type { match msg_type {
0 => unsafe { 0 => unsafe {
let size = msg_vec[1]; let size = msg_vec[1];
let addr = let addr = u16::from_le_bytes(msg_vec[2..4].try_into().unwrap());
u16::from_le_bytes(msg_vec[2..4].try_into().unwrap_unchecked());
let value = match size { let value = match size {
0 => x86_in::<u8>(addr) as u64, 0 => x86_in::<u8>(addr) as u64,
1 => x86_in::<u16>(addr) as u64, 1 => x86_in::<u16>(addr) as u64,
@ -116,10 +111,8 @@ pub fn handler(vm: &mut Vm) {
}, },
1 => unsafe { 1 => unsafe {
let size = msg_vec[1]; let size = msg_vec[1];
let addr = let addr = u16::from_le_bytes(msg_vec[2..4].try_into().unwrap());
u16::from_le_bytes(msg_vec[2..4].try_into().unwrap_unchecked()); trace!("Setting address {}", addr);
// info!("Setting address {}", addr);
match size { match size {
0 => x86_out(addr, msg_vec[4]), 0 => x86_out(addr, msg_vec[4]),
1 => x86_out( 1 => x86_out(
@ -140,95 +133,68 @@ pub fn handler(vm: &mut Vm) {
3 => unimplemented!("TODO: implement whatever buffer 3 does for no x86_64"), 3 => unimplemented!("TODO: implement whatever buffer 3 does for no x86_64"),
// source of rng // source of rng
4 => { 4 => {
let block = block_read(mem_addr, length); // limit to last 32 bits
block.chunks_mut(8.min(length)).for_each(|chunk| { vm.registers[1] =
chunk.clone_from_slice( hbvm::value::Value(crate::arch::hardware_random_u64() & 0xFFFFFFFF);
&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) { 5 => match dt_msg_handler(vm, mem_addr, length) {
Ok(()) => {} Ok(()) => {}
Err(_) => log::error!("Improper dt query"), 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 => { buffer_id => {
let mut buffs = IPC_BUFFERS.lock(); let mut buffs = IPC_BUFFERS.lock();
match buffs.get_mut(&buffer_id) { match buffs.get_mut(&buffer_id) {
Some(buff) => { Some(buff) => {
let msg_vec = block_read(mem_addr, length); let mut msg_vec = Vec::with_capacity(length);
buff.push(msg_vec.to_vec());
debug!("Sent Message {:?} to Buffer({})", msg_vec, buffer_id); 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);
}
debug!(
"Message {:?} has been sent to Buffer({})",
msg_vec, buffer_id
);
buff.push(msg_vec);
} }
None => { None => {
log::error!("Access of non-existent buffer {}", buffer_id) log::error!("Access of non-existent buffer {}", buffer_id)
} }
} }
drop(buffs);
} }
} }
} }
4 => { 4 => {
let buffer_id = vm.registers[3].cast::<u64>(); 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 max_length = vm.registers[5].cast::<u64>();
let mut buffs = IPC_BUFFERS.lock(); let mut buffs = IPC_BUFFERS.lock();
let buff: &mut IpcBuffer = match buffs.get_mut(&buffer_id) { let buff: &mut IpcBuffer;
Some(buff) => buff,
None => panic!(
"Failed to get buffer: id={buffer_id}, ptr={map_ptr}, length={max_length}"
),
};
let msg = match buff.pop() { if buffs.get_mut(&buffer_id).is_some() {
Ok(msg) => msg, buff = buffs.get_mut(&buffer_id).unwrap();
Err(_) => return, } else {
}; // info!("AHHH");
if msg.len() > unsafe { max_length.try_into().unwrap_unchecked() } { 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); info!("{}", max_length);
error!("Message is too long to map in."); error!("Message is too long to map in.");
} else { } else {
unsafe { unsafe {
let ptr = map_ptr as *mut u8; let ptr: *mut u64 = &mut map_ptr;
ptr.copy_from_nonoverlapping(msg.as_ptr(), msg.len()); for (index, byte) in msg.iter().enumerate() {
ptr.offset(index.try_into().unwrap()).write_bytes(*byte, 1);
}
} }
debug!("Recieve {:?} from Buffer({})", msg, buffer_id); debug!("Recieve {:?} from Buffer({})", msg, buffer_id);
@ -238,8 +204,14 @@ pub fn handler(vm: &mut Vm) {
#[cfg(target_arch = "x86_64")] #[cfg(target_arch = "x86_64")]
{ {
let r2 = vm.registers[2].cast::<u64>(); let r2 = vm.registers[2].cast::<u64>();
let x = hbvm::value::Value(unsafe { x86_in::<u8>(r2 as u16) } as u64); unsafe fn x86_in(address: u16) -> u32 {
// info!("Read {:?} from Port {:?}", x, r2); 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 vm.registers[3] = x
} }
} }
@ -254,3 +226,15 @@ pub enum LogError {
NoMessages, NoMessages,
InvalidLogFormat, 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

@ -1,6 +1,9 @@
use { use {
crate::holeybytes::{kernel_services::block_read, Vm}, crate::holeybytes::{kernel_services::block_read, Vm},
alloc::vec::Vec, alloc::{
string::{String, ToString},
vec::Vec,
},
}; };
pub enum DtError { pub enum DtError {
QueryFailure, QueryFailure,
@ -8,13 +11,14 @@ pub enum DtError {
pub fn dt_msg_handler(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), DtError> { pub fn dt_msg_handler(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), DtError> {
let msg_vec = block_read(mem_addr, length); let msg_vec = block_read(mem_addr, length);
let query_string = core::str::from_utf8( let mut bytes: Vec<u8> = Vec::new();
msg_vec for byte in msg_vec {
.split_once(|&byte| byte == 0) if *byte == 0 {
.unwrap_or((msg_vec, &[])) break;
.0, }
) bytes.push(*byte)
.unwrap(); }
let query_string = String::from_utf8(bytes).unwrap();
log::trace!("Query {}", query_string); log::trace!("Query {}", query_string);
let ret = query_parse(query_string); let ret = query_parse(query_string);
@ -25,13 +29,17 @@ pub fn dt_msg_handler(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), D
Ok(()) Ok(())
} }
fn query_parse(query_string: &str) -> u64 { fn query_parse(query_string: String) -> u64 {
let query = query_string.split('/').collect::<Vec<&str>>(); let qt_parse_step_one = query_string.split("/");
let mut qt_parse_step_two: Vec<String> = Vec::new();
for a in qt_parse_step_one {
qt_parse_step_two.push(a.to_string());
}
let first_fragment: &str = &query[0]; let first_fragment: &str = &qt_parse_step_two[0];
let ret = match first_fragment { let ret = match first_fragment {
"framebuffer" => framebuffer_parse(query), "framebuffer" => framebuffer_parse(qt_parse_step_two),
"cpu" => cpu_parse(query), "cpu" => cpu_parse(qt_parse_step_two),
_ => 0, _ => 0,
}; };
@ -39,8 +47,8 @@ fn query_parse(query_string: &str) -> u64 {
return ret; return ret;
} }
fn cpu_parse(qt_parse_step_two: Vec<&str>) -> u64 { fn cpu_parse(qt_parse_step_two: Vec<String>) -> u64 {
let second_fragment: &str = qt_parse_step_two[1]; let second_fragment: &str = &qt_parse_step_two[1];
match second_fragment { match second_fragment {
// "architecture" => { // "architecture" => {
// return 0; // return 0;
@ -51,14 +59,15 @@ fn cpu_parse(qt_parse_step_two: Vec<&str>) -> u64 {
}; };
} }
fn framebuffer_parse(qt_parse_step_two: Vec<&str>) -> u64 { fn framebuffer_parse(qt_parse_step_two: Vec<String>) -> u64 {
use crate::kmain::FB_REQ; use crate::kmain::FB_REQ;
let fbs = &mut FB_REQ.get_response().get().unwrap().framebuffers(); let fbs = &FB_REQ.get_response().get().unwrap().framebuffers();
let second_fragment: &str = qt_parse_step_two[1];
let second_fragment: &str = &qt_parse_step_two[1];
match second_fragment { match second_fragment {
"fb0" => { "fb0" => {
let fb_front = &fbs[0]; let fb_front = &fbs[0];
let third_fragment: &str = qt_parse_step_two[2]; let third_fragment: &str = &qt_parse_step_two[2];
let ret = match third_fragment { let ret = match third_fragment {
"ptr" => { "ptr" => {
let ptr = fb_front.address.as_ptr().unwrap(); let ptr = fb_front.address.as_ptr().unwrap();

View file

@ -9,8 +9,15 @@ use log::Record;
pub fn log_msg_handler(_vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), LogError> { pub fn log_msg_handler(_vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), LogError> {
let msg_vec = block_read(mem_addr, length); let msg_vec = block_read(mem_addr, length);
let log_level = msg_vec.last().unwrap();
let file_name = "None";
let line_number = 0;
match core::str::from_utf8(&msg_vec[..msg_vec.len()]) {
Ok(strr) => {
use log::Level::*; use log::Level::*;
let log_level = match msg_vec[0] { let log_level = match log_level {
0 | 48 => Error, 0 | 48 => Error,
1 | 49 => Warn, 1 | 49 => Warn,
2 | 50 => Info, 2 | 50 => Info,
@ -20,19 +27,7 @@ pub fn log_msg_handler(_vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(),
return Err(LogError::InvalidLogFormat); 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( log::logger().log(
&Record::builder() &Record::builder()
.args(format_args!("{}", strr)) .args(format_args!("{}", strr))

View file

@ -17,28 +17,13 @@ pub enum MemoryQuotaType {
} }
fn alloc_page(vm: &mut Vm, _mem_addr: u64, _length: usize) -> Result<(), MemoryServiceError> { fn alloc_page(vm: &mut Vm, _mem_addr: u64, _length: usize) -> Result<(), MemoryServiceError> {
let ptr = unsafe { alloc(Layout::from_size_align_unchecked(4096, 8)) }; let ptr = unsafe { alloc(Layout::from_size_align_unchecked(4096, 4096)) };
info!("Block address: {:?}", ptr); info!("Block address: {:?}", ptr);
vm.registers[1] = hbvm::value::Value(ptr as u64); vm.registers[1] = hbvm::value::Value(ptr as u64);
vm.registers[2] = hbvm::value::Value(4096); vm.registers[2] = hbvm::value::Value(4096);
Ok(()) 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( pub fn memory_msg_handler(
vm: &mut Vm, vm: &mut Vm,
mem_addr: u64, mem_addr: u64,
@ -47,35 +32,40 @@ pub fn memory_msg_handler(
let msg_vec = block_read(mem_addr, length); let msg_vec = block_read(mem_addr, length);
let msg_type = msg_vec[0]; let msg_type = msg_vec[0];
match msg_type { match msg_type {
0 => unsafe { 0 => {
let page_count = msg_vec[1]; let page_count = msg_vec[1];
let mptr_raw: [u8; 8] = msg_vec[2..10].try_into().unwrap();
let mptr: u64 = u64::from_le_bytes(mptr_raw);
let ptr = alloc(Layout::from_size_align_unchecked( log::debug!("Allocating {} pages @ {:x}", page_count, mptr);
let ptr = unsafe {
alloc(Layout::from_size_align_unchecked(
page_count as usize * 4096, page_count as usize * 4096,
8, 4096,
)); ))
};
log::debug!("Allocating {} pages @ {:x}", page_count, ptr as u64);
vm.registers[1] = hbvm::value::Value(ptr as u64); vm.registers[1] = hbvm::value::Value(ptr as u64);
log::debug!("Kernel ptr: {:x}", ptr as u64); log::debug!("Kernel ptr: {:x}", ptr as u64);
}, }
1 => unsafe { 1 => {
let page_count = msg_vec[1]; 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[2..10].try_into().unwrap();
let mptr: u64 = u64::from_le_bytes(mptr_raw); let mptr: u64 = u64::from_le_bytes(mptr_raw);
log::debug!("Deallocating {} pages @ {:x}", page_count, mptr); log::debug!("Deallocating {} pages @ {:x}", page_count, mptr);
unsafe {
dealloc( dealloc(
mptr as *mut u8, mptr as *mut u8,
Layout::from_size_align_unchecked(page_count as usize * 4096, 8), Layout::from_size_align_unchecked(page_count as usize * 4096, 4096),
) )
}, }
}
2 => { 2 => {
use MemoryQuotaType::*; use MemoryQuotaType::*;
let quota_type = match msg_vec[1] { let quota_type = match msg_vec[0] {
0 => NoQuota, 0 => NoQuota,
1 => SoftQuota, 1 => SoftQuota,
2 => HardQuota, 2 => HardQuota,
@ -92,24 +82,10 @@ pub fn memory_msg_handler(
) )
} }
3 => { 3 => {
let page_count = msg_vec[1]; let page_count = msg_vec[0];
log::debug!(" {} pages", page_count); log::debug!(" {} pages", page_count);
} }
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); log::debug!("Unknown memory service message type: {}", msg_type);
} }

View file

@ -22,19 +22,21 @@ pub enum ServiceError {
pub fn sds_msg_handler(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), ServiceError> { pub fn sds_msg_handler(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), ServiceError> {
let msg_vec = block_read(mem_addr, length); let msg_vec = block_read(mem_addr, length);
let sds_event_type: ServiceEventType = msg_vec[0].into(); 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; // info!("Length {}", msg_vec.len());
let string_vec = block_read(strptr, strlen);
let string = core::str::from_utf8(string_vec).expect("Our bytes should be valid utf8");
use ServiceEventType::*; use ServiceEventType::*;
match sds_event_type { match sds_event_type {
CreateService => { CreateService => {
let string =
core::str::from_utf8(&msg_vec[1..]).expect("Our bytes should be valid utf8");
let ret = sds_create_service(string); let ret = sds_create_service(string);
vm.registers[1] = hbvm::value::Value(ret as u64); vm.registers[1] = hbvm::value::Value(ret as u64);
} }
DeleteService => todo!(), DeleteService => todo!(),
SearchServices => { SearchServices => {
let string =
core::str::from_utf8(&msg_vec[1..]).expect("Our bytes should be valid utf8");
let ret = sds_search_service(string); let ret = sds_search_service(string);
vm.registers[1] = hbvm::value::Value(ret as u64); vm.registers[1] = hbvm::value::Value(ret as u64);
} }
@ -92,7 +94,8 @@ fn sds_create_service(protocol: &'static str) -> u64 {
// let a: protocol::Protocol = protocol.into(); // let a: protocol::Protocol = protocol.into();
buff_id buff_id
} }
pub fn sds_search_service(protocol: &str) -> u64 {
fn sds_search_service(protocol: &str) -> u64 {
let services = SERVICES.lock(); let services = SERVICES.lock();
let compare = Protocol::from(protocol); let compare = Protocol::from(protocol);
for (bid, protocol_canidate) in &services.0 { for (bid, protocol_canidate) in &services.0 {

View file

@ -30,29 +30,30 @@ impl Memory {
} }
impl hbvm::mem::Memory for Memory { impl hbvm::mem::Memory for Memory {
#[inline(always)] #[inline]
unsafe fn load( unsafe fn load(
&mut self, &mut self,
addr: Address, addr: Address,
target: *mut u8, target: *mut u8,
count: usize, count: usize,
) -> Result<(), hbvm::mem::LoadError> { ) -> Result<(), hbvm::mem::LoadError> {
core::ptr::copy_nonoverlapping(addr.get() as *const u8, target, count); if addr.get() % 4096 == 0 {}
core::ptr::copy(addr.get() as *const u8, target, count);
Ok(()) Ok(())
} }
#[inline(always)] #[inline]
unsafe fn store( unsafe fn store(
&mut self, &mut self,
addr: Address, addr: Address,
source: *const u8, source: *const u8,
count: usize, count: usize,
) -> Result<(), hbvm::mem::StoreError> { ) -> 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(()) Ok(())
} }
#[inline(always)] #[inline]
unsafe fn prog_read<T: Copy>(&mut self, addr: Address) -> T { unsafe fn prog_read<T: Copy>(&mut self, addr: Address) -> T {
(addr.get() as *const T).read() (addr.get() as *const T).read()
} }

View file

@ -1,5 +1,5 @@
mod ecah; mod ecah;
pub mod kernel_services; mod kernel_services;
mod mem; mod mem;
use { use {
@ -97,7 +97,7 @@ impl HandlePageFault for PageFaultHandler {
#[inline(always)] #[inline(always)]
const fn stack_layout() -> Layout { const fn stack_layout() -> Layout {
unsafe { Layout::from_size_align_unchecked(STACK_SIZE, 8) } unsafe { Layout::from_size_align_unchecked(STACK_SIZE, 4096) }
} }
#[inline(always)] #[inline(always)]

View file

@ -49,7 +49,9 @@ impl<'a> IpcBuffer<'a> {
pub fn push(&mut self, msg: Message) { pub fn push(&mut self, msg: Message) {
match &self.buffer { match &self.buffer {
BufferTypes::Unbound(buff) => buff.push(msg), BufferTypes::Unbound(buff) => buff.push(msg),
BufferTypes::Bound(buff) => buff.push(msg).unwrap(), BufferTypes::Bound(buff) => {
let _ = buff.push(msg);
}
}; };
} }
pub fn pop(&mut self) -> Result<Message, IpcError> { pub fn pop(&mut self) -> Result<Message, IpcError> {

View file

@ -1,15 +1,18 @@
use {alloc::vec::Vec, hashbrown::HashMap}; use {
alloc::{string::String, vec::Vec},
hashbrown::HashMap,
};
#[derive(Debug, PartialEq, Clone)] #[derive(Debug, PartialEq, Clone)]
pub struct Type {} pub struct Type {}
#[derive(Debug, PartialEq, Clone)] #[derive(Debug, PartialEq, Clone)]
pub struct Funct<'a> { pub struct Funct {
takes: Vec<&'a str>, takes: Vec<String>,
gives: Vec<&'a str>, gives: Vec<String>,
} }
#[derive(Debug, PartialEq, Clone)] #[derive(Debug, PartialEq, Clone)]
pub struct Protocol<'a> { pub struct Protocol<'a> {
types: HashMap<&'a str, Type>, types: HashMap<&'a str, Type>,
fns: HashMap<&'a str, Funct<'a>>, fns: HashMap<&'a str, Funct>,
} }
impl<'a> Protocol<'a> { impl<'a> Protocol<'a> {
pub fn void() -> Self { pub fn void() -> Self {

View file

@ -8,14 +8,11 @@ use {
device_tree::DeviceTree, device_tree::DeviceTree,
holeybytes::ExecThread, holeybytes::ExecThread,
ipc::buffer::IpcBuffer, ipc::buffer::IpcBuffer,
task::Executor,
}, },
alloc::boxed::Box,
core::cell::LazyCell,
hashbrown::HashMap, hashbrown::HashMap,
hbvm::mem::Address, hbvm::mem::Address,
limine::{Framebuffer, FramebufferRequest, NonNullPtr}, limine::{Framebuffer, FramebufferRequest, NonNullPtr},
log::{debug, error, trace}, log::{debug, trace},
spin::{Lazy, Mutex}, spin::{Lazy, Mutex},
}; };
@ -53,14 +50,15 @@ pub fn kmain(_cmdline: &str, boot_modules: BootModules) -> ! {
let fb1: &NonNullPtr<Framebuffer> = &FB_REQ.get_response().get().unwrap().framebuffers()[0]; 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 dt = DEVICE_TREE.lock();
let mut disp = xml::XMLElement::new("display_0"); let mut disp = xml::XMLElement::new("display_0");
disp.set_attribute("width", fb1.width); disp.set_attribute("width", fb1.width);
disp.set_attribute("height", fb1.height); 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); 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!("Graphics initialised");
debug!( debug!(
@ -68,55 +66,23 @@ pub fn kmain(_cmdline: &str, boot_modules: BootModules) -> ! {
fb1.address.as_ptr().unwrap() as *const u8 fb1.address.as_ptr().unwrap() as *const u8
); );
let mut executor = crate::task::Executor::new(256);
unsafe { unsafe {
let executor = LazyCell::<Executor>::force_mut(&mut EXECUTOR);
for module in boot_modules.iter() { for module in boot_modules.iter() {
let cmd = module.cmd.trim_matches('"'); let cmd = module.cmd.trim_matches('"');
let cmd_len = cmd.len() as u64; let cmd_len = cmd.len() as u64;
log::info!( log::info!("Spawning {} with arguments \"{}\"", module.path, cmd);
"Starting {}",
module
.path
.split('/')
.last()
.unwrap()
.split('.')
.next()
.unwrap()
);
log::debug!("Spawning {} with arguments \"{}\"", module.path, cmd);
// decode AbleOS Executable format let mut thr = ExecThread::new(&module.bytes, Address::new(0));
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;
}
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;
};
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 mut thr = ExecThread::new(&module.bytes[offset..end], Address::new(0));
if cmd_len > 0 { if cmd_len > 0 {
thr.set_arguments(cmd.as_ptr() as u64, cmd_len); thr.set_arguments(cmd.as_ptr() as u64, cmd_len);
} }
executor.spawn(Box::pin(async move { executor.spawn(async move {
if let Err(e) = thr.await { if let Err(e) = thr.await {
log::error!("{e:?}"); log::error!("{e:?}");
} }
})); })
} }
debug!("Random number: {}", hardware_random_u64()); debug!("Random number: {}", hardware_random_u64());
@ -127,10 +93,6 @@ pub fn kmain(_cmdline: &str, boot_modules: BootModules) -> ! {
crate::arch::spin_loop() 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(|| { pub static DEVICE_TREE: Lazy<Mutex<DeviceTree>> = Lazy::new(|| {
let dt = DeviceTree::new(); let dt = DeviceTree::new();
Mutex::new(dt) Mutex::new(dt)

View file

@ -3,11 +3,9 @@
//! 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 //! 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_std]
#![feature( #![feature(
slice_split_once,
exclusive_wrapper, exclusive_wrapper,
core_intrinsics, new_uninit,
abi_x86_interrupt, abi_x86_interrupt,
lazy_get,
alloc_error_handler, alloc_error_handler,
ptr_sub_ptr, ptr_sub_ptr,
custom_test_frameworks, custom_test_frameworks,
@ -15,7 +13,8 @@
pointer_is_aligned_to pointer_is_aligned_to
)] )]
#![test_runner(crate::test_runner)] #![test_runner(crate::test_runner)]
#![allow(dead_code, internal_features, static_mut_refs)] #![cfg_attr(not(debug_assertions), allow(unused, deprecated))]
#![allow(dead_code)]
extern crate alloc; extern crate alloc;
mod allocator; mod allocator;
@ -23,7 +22,6 @@ mod arch;
mod bootmodules; mod bootmodules;
mod capabilities; mod capabilities;
mod device_tree; mod device_tree;
mod exe_format;
mod handle; mod handle;
mod holeybytes; mod holeybytes;
mod ipc; mod ipc;

View file

@ -36,19 +36,7 @@ impl log::Log for Logger {
Level::Debug => "25", Level::Debug => "25",
Level::Trace => "103", Level::Trace => "103",
}; };
let module = record let module = record.module_path().unwrap_or_default();
.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(); let line = record.line().unwrap_or_default();
crate::arch::log(format_args!( crate::arch::log(format_args!(
"\x1b[38;5;{lvl_color}m{lvl}\x1b[0m [{module}:{line}]: {}\r\n", "\x1b[38;5;{lvl_color}m{lvl}\x1b[0m [{module}:{line}]: {}\r\n",
@ -56,7 +44,6 @@ impl log::Log for Logger {
)) ))
.expect("write to serial console"); .expect("write to serial console");
} }
}
fn flush(&self) {} fn flush(&self) {}
} }

View file

@ -29,24 +29,24 @@ pub fn yield_now() -> impl Future<Output = ()> {
YieldNow(false) YieldNow(false)
} }
pub struct Executor { pub struct Executor<F: Future<Output = ()> + Send> {
tasks: Slab<Task>, tasks: Slab<Task<F>>,
task_queue: Arc<TaskQueue>, task_queue: Arc<TaskQueue>,
} }
impl Executor { impl<F: Future<Output = ()> + Send> Executor<F> {
pub fn new() -> Self { pub fn new(size: usize) -> Self {
Self { Self {
tasks: Slab::new(), tasks: Slab::with_capacity(size),
task_queue: Arc::new(TaskQueue::new()), task_queue: Arc::new(TaskQueue::new()),
} }
} }
#[inline] #[inline]
pub fn spawn(&mut self, future: Pin<Box<dyn Future<Output = ()> + Send>>) -> usize { pub fn spawn(&mut self, future: F) {
let id = self.tasks.insert(Task::new(future)); self.task_queue
self.task_queue.queue.push(id); .queue
id .push(self.tasks.insert(Task::new(future)));
} }
pub fn run(&mut self) { pub fn run(&mut self) {
@ -83,16 +83,16 @@ impl Executor {
} }
} }
struct Task { struct Task<F: Future<Output = ()> + Send> {
future: Pin<Box<dyn Future<Output = ()> + Send>>, future: Pin<Box<F>>,
waker: Option<TaskWaker>, waker: Option<TaskWaker>,
} }
impl Task { impl<F: Future<Output = ()> + Send> Task<F> {
#[inline(always)] #[inline(always)]
pub fn new(future: Pin<Box<dyn Future<Output = ()> + Send>>) -> Self { pub fn new(future: F) -> Self {
Self { Self {
future, future: Box::pin(future),
waker: None, waker: None,
} }
} }

View file

@ -4,6 +4,7 @@
/// Used when tab `\t` in hardware is not known and we will default to two spaces /// Used when tab `\t` in hardware is not known and we will default to two spaces
pub const TAB: &str = " "; pub const TAB: &str = " ";
// NOTE: this only reduces the code duplication in source code not in generated code! // NOTE: this only reduces the code duplication in source code not in generated code!
// Written by Yours Truly: Munir // Written by Yours Truly: Munir
/// A simple macro to reduce code duplication when we use TAB internally /// A simple macro to reduce code duplication when we use TAB internally
@ -11,7 +12,7 @@ pub const TAB: &str = " ";
macro_rules! tab { macro_rules! tab {
($num:expr) => { ($num:expr) => {
TAB.repeat($num) TAB.repeat($num)
}; }
} }
// NOTE: this only reduces the code duplication in source code not in generated code! // 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 { macro_rules! device_tree {
($devtree:expr, $dev_type_vec:expr) => { ($devtree:expr, $dev_type_vec:expr) => {
for each_device_type in $dev_type_vec { 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());
} }
}; };
} }

View file

@ -1,6 +1,6 @@
{ {
"arch": "aarch64", "arch": "aarch64",
"data-layout": "e-m:e-i8:8:32-i16:16:32-i64:64-i128:128-n32:64-S128-Fn32", "data-layout": "e-m:e-i8:8:32-i16:16:32-i64:64-i128:128-n32:64-S128",
"disable-redzone": true, "disable-redzone": true,
"env": "", "env": "",
"executables": true, "executables": true,

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

@ -6,15 +6,24 @@ edition = "2021"
[dependencies] [dependencies]
str-reader = "0.1" str-reader = "0.1"
derive_more = { version = "1", default-features = false, features = [ derive_more = { version = "1", default-features = false, features = [
"add",
"add_assign",
"constructor",
"display", "display",
"from",
"into",
"mul",
"mul_assign",
"not",
"sum",
] } ] }
error-stack = "0.5" error-stack = "0.5"
fatfs = { version = "0.3", default-features = false, features = [ fatfs = "0.3"
"std",
"alloc",
] }
toml = "0.8" toml = "0.8"
# hbasm.git = "https://git.ablecorp.us/AbleOS/holey-bytes.git"
hblang.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" [dependencies.reqwest]
ureq = { version = "2", default-features = false, features = ["tls"] } version = "0.12"
default-features = false
features = ["rustls-tls", "blocking"]

View file

@ -1,6 +1,5 @@
#![allow(unused)] #![allow(unused)]
use std::{ use std::{
collections::HashMap,
fmt::format, fmt::format,
fs::{read_to_string, File}, fs::{read_to_string, File},
io::{BufWriter, Write}, io::{BufWriter, Write},
@ -14,7 +13,6 @@ pub struct Package {
name: String, name: String,
binaries: Vec<String>, binaries: Vec<String>,
build_cmd: String, build_cmd: String,
args: HashMap<String, String>,
} }
impl Package { impl Package {
@ -48,79 +46,57 @@ impl Package {
let mut binaries = vec![]; let mut binaries = vec![];
for (count, (name, table)) in bin_table.into_iter().enumerate() { for (count, (name, table)) in bin_table.into_iter().enumerate() {
// if count != 0 {
println!("{}", name);
binaries.push(name.clone()); binaries.push(name.clone());
// }
} }
let build_table = data.get("build").unwrap(); let build_table = data.get("build").unwrap();
let mut build_cmd: String = build_table.get("command").unwrap().as_str().unwrap().into(); let mut build_cmd: String = build_table.get("command").unwrap().as_str().unwrap().into();
build_cmd.remove(0); build_cmd.remove(0);
let mut args: HashMap<String, String> = match build_table.get("args") { // build_cmd.pop();
None => HashMap::new(),
Some(v) => v
.as_table()
.unwrap()
.into_iter()
.map(|(k, v)| (k.clone(), v.to_string()))
.collect::<HashMap<String, String>>(),
};
Self { Self {
name, name,
binaries, binaries,
build_cmd, 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()) { if self.binaries.contains(&"hblang".to_string()) {
let file = self.build_cmd.split_ascii_whitespace().last().unwrap(); let file = self.build_cmd.split_ascii_whitespace().last().unwrap();
let path = format!("sysdata/programs/{}/{}", self.name, file); let path = format!("sysdata/programs/{}/{}", self.name, file);
let mut bytes = Vec::new();
// compile here // compile here
let mut warnings = String::new(); let _ = hblang::run_compiler(
hblang::run_compiler(
&path, &path,
Options { Options {
fmt: true, fmt: true,
in_house_regalloc: true,
..Default::default() ..Default::default()
}, },
out, &mut bytes,
&mut warnings, );
)?; let _ = hblang::run_compiler(&path, Default::default(), &mut bytes);
match std::fs::create_dir("target/programs") { match std::fs::create_dir("target/programs") {
Ok(_) => (), Ok(_) => (),
Err(e) if e.kind() == std::io::ErrorKind::AlreadyExists => (), Err(e) if e.kind() == std::io::ErrorKind::AlreadyExists => (),
Err(e) => panic!("{}", e), Err(e) => panic!("{}", e),
} }
std::fs::write(format!("target/programs/{}.hbf", self.name), &bytes).unwrap();
hblang::run_compiler( bytes.clear();
&path, let _ = hblang::run_compiler(
Options {
in_house_regalloc: true,
..Default::default()
},
out,
&mut warnings,
)?;
std::fs::write(format!("target/programs/{}.hbf", self.name), &out)?;
out.clear();
hblang::run_compiler(
&path, &path,
Options { Options {
dump_asm: true, dump_asm: true,
in_house_regalloc: true,
..Default::default() ..Default::default()
}, },
out, &mut bytes,
&mut warnings, );
)?; std::fs::write(format!("target/programs/{}.hba", self.name), &bytes).unwrap();
std::fs::write(format!("target/programs/{}.hba", self.name), &out)?; }
out.clear();
}
Ok(())
} }
} }

View file

@ -1,16 +1,18 @@
// #![allow(unused)]
mod dev; mod dev;
use { use {
core::fmt::Write as _,
derive_more::Display, derive_more::Display,
dev::Package, dev::Package,
error_stack::{bail, report, Context, Report, Result, ResultExt}, error_stack::{bail, report, Context, Report, Result, ResultExt},
fatfs::{FileSystem, FormatVolumeOptions, FsOptions, ReadWriteSeek}, fatfs::{FileSystem, FormatVolumeOptions, FsOptions, ReadWriteSeek},
std::{ std::{
// fmt::Display,
fs::{self, File}, fs::{self, File},
io::{self, Write}, io::{self, Write},
path::Path, path::Path,
process::{exit, Command, Stdio}, process::{exit, Command},
}, },
toml::Value, toml::Value,
}; };
@ -19,9 +21,6 @@ fn main() -> Result<(), Error> {
let mut args = std::env::args(); let mut args = std::env::args();
args.next(); args.next();
log::set_logger(&hblang::Logger).unwrap();
log::set_max_level(log::LevelFilter::Error);
match args.next().as_deref() { match args.next().as_deref() {
Some("build" | "b") => { Some("build" | "b") => {
let mut release = false; let mut release = false;
@ -36,8 +35,6 @@ fn main() -> Result<(), Error> {
target = Target::Riscv64Virt; target = Target::Riscv64Virt;
} else if arg == "arm64" || arg == "aarch64" || arg == "aarch64-virt" { } else if arg == "arm64" || arg == "aarch64" || arg == "aarch64-virt" {
target = Target::Aarch64; target = Target::Aarch64;
} else if arg == "avx2" {
target = Target::X86_64Avx2;
} else { } else {
return Err(report!(Error::InvalidSubCom)); return Err(report!(Error::InvalidSubCom));
} }
@ -49,7 +46,6 @@ fn main() -> Result<(), Error> {
let mut release = false; let mut release = false;
let mut debuginfo = false; let mut debuginfo = false;
let mut target = Target::X86_64; let mut target = Target::X86_64;
let mut do_accel = true;
for arg in args { for arg in args {
if arg == "-r" || arg == "--release" { if arg == "-r" || arg == "--release" {
release = true; release = true;
@ -59,17 +55,13 @@ fn main() -> Result<(), Error> {
target = Target::Riscv64Virt; target = Target::Riscv64Virt;
} else if arg == "arm64" || arg == "aarch64" || arg == "aarch64-virt" { } else if arg == "arm64" || arg == "aarch64" || arg == "aarch64-virt" {
target = Target::Aarch64; target = Target::Aarch64;
} else if arg == "--noaccel" {
do_accel = false;
} else if arg == "avx2" {
target = Target::X86_64Avx2;
} else { } else {
return Err(report!(Error::InvalidSubCom)); return Err(report!(Error::InvalidSubCom));
} }
} }
build(release, target, debuginfo)?; build(release, target, debuginfo)?;
run(release, target, do_accel) run(release, target)
} }
Some("help" | "h") => { Some("help" | "h") => {
println!(concat!( println!(concat!(
@ -79,10 +71,8 @@ fn main() -> Result<(), Error> {
" help (h): Print this message\n", " help (h): Print this message\n",
" run (r): Build and run AbleOS in QEMU\n\n", " run (r): Build and run AbleOS in QEMU\n\n",
"Options for build and run:\n", "Options for build and run:\n",
" -r / --release: build in release mode\n", " -r: build in release mode",
" -d / --debuginfo: build with debug info\n", " [target]: sets target"
" --noaccel: run without acceleration (e.g, no kvm)\n",
"[ rv64 / riscv64 / riscv64-virt / aarch64 / arm64 / aarch64-virt / avx2 ]: sets target"
),); ),);
Ok(()) Ok(())
} }
@ -205,12 +195,7 @@ TERM_BACKDROP={}
let modules = value.get_mut("modules").unwrap().as_table_mut().unwrap(); let modules = value.get_mut("modules").unwrap().as_table_mut().unwrap();
// let mut real_modules = modules.clone(); // let mut real_modules = modules.clone();
let mut errors = String::new(); modules.into_iter().for_each(|(_, value)| {
let mut out = Vec::new();
modules
.into_iter()
.map(|(_, value)| -> Result<(), io::Error> {
if value.is_table() { if value.is_table() {
let path = get_path_without_boot_prefix( let path = get_path_without_boot_prefix(
value.get("path").expect("You must have `path` as a value"), value.get("path").expect("You must have `path` as a value"),
@ -222,26 +207,9 @@ TERM_BACKDROP={}
let p = Package::load_from_file( let p = Package::load_from_file(
format!("sysdata/programs/{}/meta.toml", path).to_owned(), format!("sysdata/programs/{}/meta.toml", path).to_owned(),
); );
match p.build(&mut out) { p.build();
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)| { modules.into_iter().for_each(|(_key, value)| {
if value.is_table() { if value.is_table() {
let path = value.get("path").expect("You must have `path` as a value"); let path = value.get("path").expect("You must have `path` as a value");
@ -328,9 +296,6 @@ fn build(release: bool, target: Target, debuginfo: bool) -> Result<(), Error> {
if target == Target::Aarch64 { if target == Target::Aarch64 {
com.args(["--target", "targets/aarch64-virt-ableos.json"]); 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() { match com.status() {
Ok(s) if s.code() != Some(0) => bail!(Error::Build), Ok(s) if s.code() != Some(0) => bail!(Error::Build),
@ -344,10 +309,6 @@ fn build(release: bool, target: Target, debuginfo: bool) -> Result<(), Error> {
path.push_str("_x86-64"); path.push_str("_x86-64");
"target/x86_64-ableos" "target/x86_64-ableos"
} }
Target::X86_64Avx2 => {
path.push_str("_x86-64");
"target/x86_64_v3-ableos"
}
Target::Riscv64Virt => "target/riscv64-virt-ableos", Target::Riscv64Virt => "target/riscv64-virt-ableos",
Target::Aarch64 => { Target::Aarch64 => {
path.push_str("_aarch64"); path.push_str("_aarch64");
@ -370,68 +331,25 @@ fn build(release: bool, target: Target, debuginfo: bool) -> Result<(), Error> {
.change_context(Error::Io) .change_context(Error::Io)
} }
fn run(release: bool, target: Target, do_accel: bool) -> Result<(), Error> { fn run(release: bool, target: Target) -> Result<(), Error> {
let target_str = match target { let mut com = match target {
Target::X86_64 | Target::X86_64Avx2 => "qemu-system-x86_64", Target::X86_64 => Command::new("qemu-system-x86_64"),
Target::Riscv64Virt => "qemu-system-riscv64", Target::Riscv64Virt => Command::new("qemu-system-riscv64"),
Target::Aarch64 => "qemu-system-aarch64", 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); 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 { match target {
Target::X86_64 | Target::X86_64Avx2 => { Target::X86_64 => {
#[rustfmt::skip] #[rustfmt::skip]
com.args([ com.args([
"-bios", &ovmf_path.change_context(Error::OvmfFetch)?, "-bios", &ovmf_path.change_context(Error::OvmfFetch)?,
"-drive", "file=target/disk.img,format=raw", "-drive", "file=target/disk.img,format=raw",
"-device", "vmware-svga", "-m", "4G",
// "-serial", "stdio", "-smp", "cores=4",
"-m", "2G", "-enable-kvm",
"-smp", "1", "-cpu", "host",
"-parallel", "none", "-device", "isa-debug-exit,iobase=0xf4,iosize=0x04"
"-monitor", "none",
"-machine", accel,
"-cpu", "max",
"-device", "isa-debug-exit,iobase=0xf4,iosize=0x04",
]); ]);
} }
Target::Riscv64Virt => { Target::Riscv64Virt => {
@ -475,7 +393,7 @@ fn run(release: bool, target: Target, do_accel: bool) -> Result<(), Error> {
fn fetch_ovmf(target: Target) -> Result<String, OvmfFetchError> { fn fetch_ovmf(target: Target) -> Result<String, OvmfFetchError> {
let (ovmf_url, ovmf_path) = match target { 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", "https://retrage.github.io/edk2-nightly/bin/RELEASEX64_OVMF.fd",
"target/RELEASEX64_OVMF.fd", "target/RELEASEX64_OVMF.fd",
), ),
@ -497,12 +415,12 @@ fn fetch_ovmf(target: Target) -> Result<String, OvmfFetchError> {
Ok(_) => return Ok(ovmf_path.to_owned()), Ok(_) => return Ok(ovmf_path.to_owned()),
Err(e) => return Err(report!(e).change_context(OvmfFetchError::Io)), Err(e) => return Err(report!(e).change_context(OvmfFetchError::Io)),
}; };
let req = ureq::get(ovmf_url) let mut bytes = reqwest::blocking::get(ovmf_url)
.call()
.map_err(Report::from) .map_err(Report::from)
.change_context(OvmfFetchError::Fetch)?; .change_context(OvmfFetchError::Fetch)?;
std::io::copy(&mut req.into_reader(), &mut file) bytes
.copy_to(&mut file)
.map_err(Report::from) .map_err(Report::from)
.change_context(OvmfFetchError::Io)?; .change_context(OvmfFetchError::Io)?;
@ -524,7 +442,6 @@ impl Context for OvmfFetchError {}
#[derive(Clone, Copy, PartialEq, Eq)] #[derive(Clone, Copy, PartialEq, Eq)]
enum Target { enum Target {
X86_64, X86_64,
X86_64Avx2,
Riscv64Virt, Riscv64Virt,
Aarch64, Aarch64,
} }

View file

@ -1,5 +1,3 @@
[toolchain] [toolchain]
# old toolchain channel = "nightly-2024-07-27"
# channel = "nightly-2024-07-27"
channel = "nightly"
components = ["rust-src", "llvm-tools"] 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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@ -0,0 +1 @@
# dt_api

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@ -0,0 +1,8 @@
stn := @use("rel:../../stn/src/lib.hb");
.{string, memory, buffer} := stn
dt_get := fn(query: ^u8): int {
message_length := string.length(query)
return @eca(int, 3, 5, query, message_length)
}

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

@ -1,49 +1,24 @@
stn := @use("../../stn/src/lib.hb"); stn := @use("rel:../../stn/src/lib.hb");
.{string, memory, buffer, log} := stn .{string, memory, buffer} := 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 { WindowID := struct {
host_id: int, host_id: int,
window_id: int, window_id: int,
} }
VoidWindowID := WindowID.(0, 0) create_window := fn(channel: int): void {
create_window := fn(channel: int): ^render.Surface {
// get the horizon buffer // get the horizon buffer
// request a new window and provide the callback buffer // request a new window and provide the callback buffer
// wait to recieve a message // wait to recieve a message
windowing_system_buffer := buffer.search("XHorizon\0") windowing_system_buffer := buffer.search("XHorizon\0")
mem_buf := memory.request_page(1)
if windowing_system_buffer == 0 { if windowing_system_buffer == 0 {
return @as(^render.Surface, idk)
} else { } else {
// ! bad able, stop using string messages :ragey: msg := "\{01}\0"
// msg := "\{01}\0" msg_length := 2
// msg_length := 2 @eca(void, 3, windowing_system_buffer, msg, msg_length)
// @as(void, @eca(3, windowing_system_buffer, msg, msg_length))
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 { return
log.info("No messages\0")
}
return @as(^render.Surface, idk)
}
} }

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,
}
set_label_text := fn(label: Label, text: ^u8): void {
text_length := string.length(text)
label.is_dirty = true
label.text = text
label.text_length = text_length
}
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)
}
new_label := fn(text: ^u8): Label {
text_surface := render.new_surface(1024, 20)
text_length := string.length(text)
label := Label.(3, true, text_surface, text, text_length, render.black, render.white)
return label
}
$set_color := fn(label: Label, bg: Color, fg: Color): void {
label.bg = bg
label.fg = fg
label.is_dirty = true
}

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

@ -1,5 +1,5 @@
structures := @use("structures.hb") structures := @use("rel:structures.hb")
version := @use("version.hb") version := @use("rel:version.hb")
// Refer to here https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/VkApplicationInfo.html // Refer to here https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/VkApplicationInfo.html
ApplicationInfo := struct { ApplicationInfo := struct {
@ -7,7 +7,7 @@ ApplicationInfo := struct {
pNext: ^int, pNext: ^int,
application_name: ^u8, application_name: ^u8,
application_version: int, application_version: int,
engine_name: ^u8, engine_name: int,
engine_version: int, engine_version: int,
api_version: int, api_version: int,
} }

View file

@ -1,8 +1,8 @@
application := @use("application.hb"); application := @use("rel:application.hb");
.{ApplicationInfo} := application .{ApplicationInfo} := application
structures := @use("structures.hb") structures := @use("rel:structures.hb")
errors := @use("errors.hb") errors := @use("rel:errors.hb")
// https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/VkInstanceCreateInfo.html // https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/VkInstanceCreateInfo.html
InstanceCreateInfo := struct { InstanceCreateInfo := struct {

View file

@ -1,16 +1,16 @@
application := @use("application.hb") application := @use("rel:application.hb")
results := @use("results.hb") results := @use("rel:results.hb")
errors := @use("errors.hb") errors := @use("rel:errors.hb")
offsets := @use("offset.hb") offsets := @use("rel:offset.hb")
extends := @use("extends.hb") extends := @use("rel:extends.hb")
rect := @use("rect.hb") rect := @use("rel:rect.hb")
structures := @use("structures.hb") structures := @use("rel:structures.hb")
instance := @use("instance.hb") instance := @use("rel:instance.hb")
version := @use("version.hb") version := @use("rel:version.hb")
init_vulkan := fn(): int { init_vulkan := fn(): int {
return errors.IncompatibleDriver return errors.IncompatibleDriver

View file

@ -1,5 +1,5 @@
offsets := @use("offset.hb") offsets := @use("rel:offset.hb")
extends := @use("extends.hb") extends := @use("rel:extends.hb")
Rect2D := struct { Rect2D := struct {
offset: offsets.Offset2D, offset: offsets.Offset2D,

View file

@ -1,20 +0,0 @@
# intouch
This library is exclusively focused on allowing your to get input regardless of which devices you have.
Partially modeled after SDL.
Current goals include
- Interfaces
- PS/2
- Device Types
- Keyboard
- Mouse
Longer Term goals
- Interfaces
- USB
- USB-HID
- Device Types
- Gamepads/controllers
- Drawing Tablets
- Microphones

View file

@ -1,2 +0,0 @@
0x0D -> press Tab
0xF0 0x0D -> release Tab

View file

@ -1,18 +0,0 @@
keycodes := @use("keycodes.hb");
.{KeyCode} := keycodes
KeyEvent := packed struct {
up: bool,
just_triggered: bool,
key: KeyCode,
}
MouseEvent := packed struct {
x_change: i8,
y_change: i8,
left: bool,
middle: bool,
right: bool,
}
GamepadEvent := struct {}

View file

@ -1,121 +0,0 @@
/*
Originally I was modelling this after the following(1). I have since changed my mind.
I am now modelling it as I see fit. This is likely not the final version.
1) https://www.libsdl.org/release/SDL-1.2.15/include/SDL_keysym.h
*/
KeyCode := u32
// Typically this is not a keycode you will ever recieve.
None := KeyCode.(0)
Escape := KeyCode.(1)
/* Alphabet keycodes */
A := KeyCode.(2)
B := KeyCode.(3)
C := KeyCode.(4)
D := KeyCode.(5)
E := KeyCode.(6)
F := KeyCode.(7)
G := KeyCode.(8)
H := KeyCode.(9)
I := KeyCode.(10)
J := KeyCode.(11)
K := KeyCode.(12)
L := KeyCode.(13)
M := KeyCode.(14)
N := KeyCode.(15)
O := KeyCode.(16)
P := KeyCode.(17)
Q := KeyCode.(18)
R := KeyCode.(19)
S := KeyCode.(20)
T := KeyCode.(21)
U := KeyCode.(22)
V := KeyCode.(23)
W := KeyCode.(24)
X := KeyCode.(25)
Y := KeyCode.(26)
Z := KeyCode.(27)
/* Numeric keycodes*/
Number0 := KeyCode.(28)
Number1 := KeyCode.(29)
Number2 := KeyCode.(30)
Number3 := KeyCode.(31)
Number4 := KeyCode.(32)
Number5 := KeyCode.(33)
Number6 := KeyCode.(34)
Number7 := KeyCode.(35)
Number8 := KeyCode.(36)
Number9 := KeyCode.(37)
KeypadNumber0 := KeyCode.(38)
KeypadNumber1 := KeyCode.(39)
KeypadNumber2 := KeyCode.(40)
KeypadNumber3 := KeyCode.(41)
KeypadNumber4 := KeyCode.(42)
KeypadNumber5 := KeyCode.(43)
KeypadNumber6 := KeyCode.(44)
KeypadNumber7 := KeyCode.(45)
KeypadNumber8 := KeyCode.(46)
KeypadNumber9 := KeyCode.(47)
KeypadPeriod := KeyCode.(48)
KeypadDivide := KeyCode.(49)
KeypadMultiply := KeyCode.(50)
KeypadMinus := KeyCode.(51)
KeypadPlus := KeyCode.(52)
KeypadEnter := KeyCode.(53)
KeypadEquals := KeyCode.(54)
Delete := KeyCode.(55)
/* Locking Keys */
NumLock := KeyCode.(56)
CapsLock := KeyCode.(57)
ScrollLock := KeyCode.(58)
/* "Alt Gr" key */
Mode := KeyCode.(59)
/* Multi-key compose key */
Compose := KeyCode.(60)
LeftAlt := KeyCode.(61)
LeftControl := KeyCode.(62)
LeftMeta := KeyCode.(63)
LeftShift := KeyCode.(64)
/* Left "Windows" key */
LeftSuper := KeyCode.(65)
RightAlt := KeyCode.(66)
RightControl := KeyCode.(67)
RightMeta := KeyCode.(68)
RightShift := KeyCode.(69)
/* Right "Windows" key */
RightSuper := KeyCode.(70)
/*
This block of any triggers on any press of any of the keys.
Typically this is the event to care about.
*/
AnyNumber0 := KeyCode.(71)
AnyNumber1 := KeyCode.(72)
AnyNumber2 := KeyCode.(73)
AnyNumber3 := KeyCode.(74)
AnyNumber4 := KeyCode.(75)
AnyNumber5 := KeyCode.(76)
AnyNumber6 := KeyCode.(77)
AnyNumber7 := KeyCode.(78)
AnyNumber8 := KeyCode.(79)
AnyNumber9 := KeyCode.(80)
AnyAlt := KeyCode.(81)
AnyControl := KeyCode.(82)
AnyMeta := KeyCode.(83)
AnyShift := KeyCode.(84)
/* Any "Windows" key */
AnySuper := KeyCode.(85)

View file

@ -1,36 +0,0 @@
stn := @use("../../stn/src/lib.hb");
.{log, buffer, memory} := stn
keycodes := @use("keycodes.hb")
events := @use("events.hb");
.{KeyEvent, MouseEvent} := events
recieve_key_event := fn(): ?KeyEvent {
kevent := KeyEvent.(false, false, 0)
buf_id := buffer.search("PS/2 Keyboard\0")
// Read out of the Keyboard buffer here
buffer.recv(KeyEvent, buf_id, &kevent)
if kevent.just_triggered {
return kevent
}
return null
}
recieve_mouse_event := fn(): ?MouseEvent {
mevent := MouseEvent.(0, 0, false, false, false)
buf_id := buffer.search("PS/2 Mouse\0")
// Read out of the Mouse buffer here
buffer.recv(MouseEvent, buf_id, &mevent)
if mevent.x_change != 0 | mevent.y_change != 0 | mevent.left | mevent.middle | mevent.right {
return mevent
}
return null
}

View file

@ -1,75 +1,11 @@
.{string, memory, buffer, log} := @use("../../stn/src/lib.hb")
PCIAddress := struct { PCIAddress := struct {
bus: u8, bus: u8,
device: u8, device: u8,
function: u8, function: u8,
} }
PCI_ID := struct { find_device := fn(vendor_id: int, device_id: int, pci_address: PCIAddress): int {
vendor: u16, return 1
device: u16,
inner: int,
}
get_ids := fn(bus: u8, device: u8, function: u8): PCI_ID {
res := config_read32(bus, device, function, 0)
dev_id := res >> 16
dev_id &= 0xFFFF
vnd_id := res & 0xFFFF
return PCI_ID.(dev_id, vnd_id, 0)
}
PciDeviceInfo := struct {
header_type: u8,
device: u8,
bus: u8,
device_id: PCI_ID,
class: u16,
rev_id: u8,
}
calculate_address := fn(bus: u8, device: u8, function: u8, offset: u8): int {
address := bus << 16
address |= device << 11
address |= function << 8
address |= offset & 0xFC
address |= 0x80000000
return address
}
get_header_type := fn(bus: u8, device: u8, function: u8): u8 {
res := config_read32(bus, device, function, 0xC)
ret := res >> 16
ret &= 0xFF
return ret
}
check_device := fn(bus: u8, device: u8): PciDeviceInfo {
pci_id := get_ids(bus, device, 0)
if pci_id.vendor == 0xFFFF {
log.warn(":|\0")
} else {
log.info(":)\0")
}
address := calculate_address(bus, device, 0, 0x8)
reg2 := config_read32(bus, device, 0, 0x8)
class := reg2 >> 16 & 0xFFFF
header_type := get_header_type(bus, device, 0)
rev_id := reg2 & 0xFF
return PciDeviceInfo.(header_type, device, bus, pci_id, class, rev_id)
}
find_device := fn(vendor_id: int, device_id: int, pci_address: PCIAddress): PCI_ID {
pci_id := get_ids(0, 2, 0)
return pci_id
} }
scan_bus := fn(): void { scan_bus := fn(): void {
@ -77,17 +13,16 @@ scan_bus := fn(): void {
config_read32 := fn(bus: u32, device: u32, func: u32, offset: u32): u32 { config_read32 := fn(bus: u32, device: u32, func: u32, offset: u32): u32 {
// construct address param // construct address param
offset_and := offset & 0xFC address := bus << 16 | device << 11 | func << 8
address |= offset
address := bus << 16 address &= 0xFC
address |= device << 11
address |= func << 8
address |= offset_and
address |= 0x80000000 address |= 0x80000000
// write address // write address
memory.outl(0xCF8, address) //Port::new(0xCF8).write(address);
// read data // read data
return memory.inl(0xCFC) //Port::new(0xCFC).read()
return
} }

View file

@ -1,27 +0,0 @@
# Images
- Animation
# API
- Colour operations:
- Alpha Composite
- Invert
- Surface Operations:
- FlipH
- Resize
- Wrap the colour operations
- Tile
- Gradient overlay
- Draw operations:
- Curve raster algorithm
- VGA font fast blit
- Polygon
- Rounded rects
# Backend
- SVGA Driver
- Support whatever vulkan stuff able is cooking
# Bits and bobs on the table
- Funny 3D Renderer
- stn.memory.swap & kernel message
- Make memory.{copy, set} smart

View file

@ -1,49 +0,0 @@
.{Color, Surface, new_surface, put_surface} := @use("../lib.hb");
.{log} := @use("../../../stn/src/lib.hb")
BitmapFileHeader := packed struct {
magic: u16,
size: u32,
reserved_1: u16,
reserved_2: u16,
offset: u32,
}
BitmapInfoHeader := packed struct {
size: u32,
width: i32,
height: i32,
planes: u16,
bits: u16,
compression: u32,
image_size: u32,
x_resolution: i32,
y_resolution: i32,
n_colours: u32,
important_colours: u32,
}
BitmapColorHeader := packed struct {
red_mask: u32,
green_mask: u32,
blue_mask: u32,
alpha_mask: u32,
color_space_type: u32,
unused: u32,
}
from := fn(bmp: ^u8): ?Surface {
file_header := @as(^BitmapFileHeader, @bitcast(bmp))
info_header := @as(^BitmapInfoHeader, @bitcast(bmp + @sizeof(BitmapFileHeader)))
if file_header.magic != 0x4D42 | info_header.width == 0 | info_header.height == 0 {
log.error("Invalid BMP image.\0")
return null
}
lhs := Surface.(@bitcast(bmp + file_header.offset), info_header.width, info_header.height, info_header.width * info_header.height)
rhs := new_surface(info_header.width, info_header.height)
put_surface(rhs, lhs, .(0, 0), true)
return rhs
}

View file

@ -1,31 +0,0 @@
.{log} := @use("../../../stn/src/lib.hb");
.{Surface} := @use("../lib.hb")
bmp := @use("bmp.hb")
qoi := @use("qoi.hb")
$BMP := 0x4D42
$QOI := 0x66696F71
get_format := fn(file: ^u8): ?uint {
if *@as(^u16, @bitcast(file)) == BMP {
return BMP
} else if *@as(^u32, @bitcast(file)) == QOI {
return QOI
} else {
return null
}
}
from := fn(file: ^u8): ?Surface {
format := get_format(file)
if format == null {
log.error("Could not detect image format.\0")
return null
} else if format == BMP {
return bmp.from(file)
} else if format == QOI {
return qoi.from(file)
}
return null
}

View file

@ -1,101 +0,0 @@
.{Color, Surface, new_surface} := @use("../lib.hb");
.{log} := @use("../../../stn/src/lib.hb")
/* source:
https://github.com/phoboslab/qoi/blob/master/qoi.h */
$QOI_SRGB := 0
$QOI_LINEAR := 1
$QOI_OP_INDEX := 0x0
$QOI_OP_DIFF := 0x40
$QOI_OP_LUMA := 0x80
$QOI_OP_RUN := 0xC0
$QOI_OP_RGB := 0xFE
$QOI_OP_RGBA := 0xFF
$QOI_MASK_2 := 0xC0
$QOI_COLOR_HASH := fn(c: Color): u8 {
return (c.r * 3 + c.g * 5 + c.b * 7 + c.a * 11) % 64
}
$QOI_MAGIC := 0x716F6966
$QOI_PIXELS_MAX := 400000000
QuiteOkayHeader := packed struct {
magic: u32,
width: u32,
height: u32,
channels: u8,
colorspace: u8,
}
be_to_le := fn(big: u32): u32 {
return big >> 24 | big >> 8 & 0xFF00 | big << 8 & 0xFF0000 | big << 24
}
from := fn(qoi: ^u8): ?Surface {
header := @as(^QuiteOkayHeader, @bitcast(qoi))
qoi += @sizeof(QuiteOkayHeader)
width := be_to_le(header.width)
height := be_to_le(header.height)
if be_to_le(header.magic) != QOI_MAGIC | width == 0 | height == 0 | header.channels < 3 | header.channels > 4 {
log.error("Invalid QOI image.\0")
return null
}
surface := new_surface(width, height)
index := @as([Color; 64], idk)
run := 0
px := Color.(0, 0, 0, 255)
px_pos := 0
total_pixels := width * height
loop if px_pos >= total_pixels break else {
if run > 0 {
run -= 1
} else {
b1 := *qoi
qoi += 1
if b1 == QOI_OP_RGB {
px.r = *qoi
px.g = *(qoi + 1)
px.b = *(qoi + 2)
qoi += 3
} else if b1 == QOI_OP_RGBA {
px.r = *qoi
px.g = *(qoi + 1)
px.b = *(qoi + 2)
px.a = *(qoi + 3)
qoi += 4
} else if (b1 & QOI_MASK_2) == QOI_OP_INDEX {
px = index[b1 & 0x3F]
} else if (b1 & QOI_MASK_2) == QOI_OP_DIFF {
px.r = px.r + (b1 >> 4 & 0x3) - 2 & 0xFF
px.g = px.g + (b1 >> 2 & 0x3) - 2 & 0xFF
px.b = px.b + (b1 & 0x3) - 2 & 0xFF
} else if (b1 & QOI_MASK_2) == QOI_OP_LUMA {
b2 := *qoi
vg := (b1 & 0x3F) - 32
px.r = px.r + vg - 8 + (b2 >> 4 & 0xF) & 0xFF
px.g = px.g + vg & 0xFF
px.b = px.b + vg - 8 + (b2 & 0xF) & 0xFF
qoi += 1
} else if (b1 & QOI_MASK_2) == QOI_OP_RUN {
run = b1 & 0x3F
}
index[QOI_COLOR_HASH(px)] = px
};
*(surface.buf + px_pos) = px
px_pos += 1
}
return surface
}

View file

@ -1,57 +1,47 @@
software := @use("software.hb") svga := @use("rel:svga.hb")
image := @use("image/lib.hb") software := @use("rel:software.hb")
text := @use("text.hb")
// default mode // default mode
mode := software mode := software
init := mode.init init := mode.init
doublebuffer := mode.doublebuffer doublebuffer := mode.doublebuffer
Surface := mode.Surface
new_surface := mode.new_surface
surface_from_ptr := mode.surface_from_ptr
clone_surface := mode.clone_surface
free_surface := mode.free_surface
index := mode.index
indexptr := mode.indexptr
// Colours // Colours
Color := packed struct {b: u8, g: u8, r: u8, a: u8} Color := mode.Color
$white := Color.(255, 255, 255, 255) white := mode.white
$black := Color.(0, 0, 0, 255) black := mode.black
$gray := Color.(127, 127, 127, 255) gray := mode.gray
$red := Color.(0, 0, 205, 255) red := mode.red
$green := Color.(0, 205, 0, 255) green := mode.green
$yellow := Color.(0, 205, 205, 255) yellow := mode.yellow
$blue := Color.(205, 0, 0, 255) blue := mode.blue
$magenta := Color.(205, 0, 205, 255) magenta := mode.magenta
$cyan := Color.(205, 205, 0, 255) cyan := mode.cyan
$light_gray := Color.(229, 229, 229, 255) light_gray := mode.light_gray
$light_red := Color.(0, 0, 255, 255) light_red := mode.light_red
$light_green := Color.(0, 255, 0, 255) light_green := mode.light_green
$light_yellow := Color.(0, 255, 255, 255) light_yellow := mode.light_yellow
$light_blue := Color.(255, 0, 0, 255) light_blue := mode.light_blue
$light_magenta := Color.(255, 0, 255, 255) light_magenta := mode.light_magenta
$light_cyan := Color.(255, 255, 0, 255) light_cyan := mode.light_cyan
// Drawing // Drawing
put_pixel := mode.put_pixel put_pixel := mode.put_pixel
put_rect := mode.put_rect put_rect := mode.put_rect
put_filled_rect := mode.put_filled_rect put_filled_rect := mode.put_filled_rect
put_trirect := mode.put_trirect
put_circle := mode.put_circle
put_filled_circle := mode.put_filled_circle
put_textured_circle := mode.put_textured_circle
put_line := mode.put_line put_line := mode.put_line
put_vline := mode.put_vline
put_hline := mode.put_hline
clear := mode.clear clear := mode.clear
put_surface := mode.put_surface
put_text := mode.put_text
// thanks peony for these three!
//put_trirect := mode.put_trirect
//put_vline := mode.put_vline
//put_hline := mode.put_hline
// Display // Display
width := mode.width
height := mode.height
dimensions := mode.dimensions
set_height := mode.set_height
set_width := mode.set_width
set_dimensions := mode.set_dimensions
sync := mode.sync sync := mode.sync
// Math
UVec2 := struct {x: uint, y: uint}
IVec2 := struct {x: int, y: int}

View file

@ -1,116 +1,197 @@
.{math, memory, dt} := @use("../../stn/src/lib.hb"); .{math, memory} := @use("../../stn/src/lib.hb");
.{Color, text} := @use("lib.hb"); .{dt_get} := @use("../../dt_api/src/lib.hb");
.{get_glyph, get_glyph_unicode, Font, UNC_TABLE_SIZE} := text; .{IVec2} := @use("rel:lib.hb")
.{Vec2} := math
// safety: don't use before init() or you will get a memory access violation Color := struct {b: u8, g: u8, r: u8, a: u8}
framebuffer := memory.dangling(Color) white := Color.(255, 255, 255, 255)
black := Color.(0, 0, 0, 255)
gray := Color.(127, 127, 127, 255)
red := Color.(0, 0, 205, 255)
green := Color.(0, 205, 0, 255)
yellow := Color.(0, 205, 205, 255)
blue := Color.(205, 0, 0, 255)
magenta := Color.(205, 0, 205, 255)
cyan := Color.(205, 205, 0, 255)
light_gray := Color.(229, 229, 229, 255)
light_red := Color.(0, 0, 255, 255)
light_green := Color.(0, 255, 0, 255)
light_yellow := Color.(0, 255, 255, 255)
light_blue := Color.(255, 0, 0, 255)
light_magenta := Color.(255, 0, 255, 255)
light_cyan := Color.(255, 255, 0, 255)
Surface := struct { // might not work for some resolutions, but needs to be comptime because...
copy_pixels := 0xC000 >> 2
ctx := @as(Context, idk)
// some of these are redudant holdovers from fb_driver
// will keep them for future work if necessary
Context := struct {
fb: ^Color,
bb: ^Color,
buf: ^Color, buf: ^Color,
width: uint, width: int,
height: uint, height: int,
size: uint, partitions: int,
pixels: int,
bb_pages: int,
double_buffer: bool,
} }
new_surface := fn(width: uint, height: uint): Surface { init := fn(): void {
return .( width := dt_get("framebuffer/fb0/width\0")
memory.alloc(Color, width * height), height := dt_get("framebuffer/fb0/height\0")
// width := 1024
// height := 768
pixels := width * height
bytes := pixels << 2
partitions := pixels / copy_pixels
pages := 1 + bytes >> 12
back_buffer := create_back_buffer(pages)
ctx = Context.{
fb: dt_get("framebuffer/fb0/ptr\0"),
bb: back_buffer,
buf: back_buffer,
width, width,
height, height,
width * height, partitions,
) pixels,
bb_pages: pages,
double_buffer: true,
}
return
} }
clone_surface := fn(surface: ^Surface): Surface { doublebuffer := fn(enable: bool): void {
new := new_surface(surface.width, surface.height) if enable {
memory.copy(Color, surface.buf, new.buf, @intcast(surface.size)) ctx.buf = ctx.bb
return new
}
init := fn(doublebuffer: bool): Surface {
framebuffer = dt.get(^Color, "framebuffer/fb0/ptr\0")
width := dt.get(uint, "framebuffer/fb0/width\0")
height := dt.get(uint, "framebuffer/fb0/height\0")
if doublebuffer {
return new_surface(width, height)
} else { } else {
return .(framebuffer, width, height, width * height) ctx.buf = ctx.fb
} }
} ctx.double_buffer = enable
$clear := fn(surface: Surface, color: Color): void {
memory.set(Color, &color, surface.buf, surface.width * surface.height)
}
$sync := fn(surface: Surface): void {
memory.copy(Color, surface.buf, framebuffer, @bitcast(surface.width * surface.height))
}
$index := fn(surface: Surface, x: uint, y: uint): uint {
return x + surface.width * y
}
$indexptr := fn(surface: Surface, x: uint, y: uint): ^Color {
return surface.buf + index(surface, x, y)
}
$put_pixel := fn(surface: Surface, pos: Vec2(uint), color: Color): void {
return *indexptr(surface, pos.x, pos.y) = color
}
put_filled_rect := fn(surface: Surface, pos: Vec2(uint), tr: Vec2(uint), color: Color): void {
top_start_idx := indexptr(surface, pos.x, pos.y)
bottom_start_idx := indexptr(surface, pos.x, pos.y + tr.y - 1)
rows_to_fill := tr.y
loop if rows_to_fill <= 1 break else {
memory.set(Color, &color, top_start_idx, tr.x)
memory.set(Color, &color, bottom_start_idx, tr.x)
top_start_idx += surface.width
bottom_start_idx -= surface.width
rows_to_fill -= 2
}
if rows_to_fill == 1 {
memory.set(Color, &color, top_start_idx, tr.x)
}
return return
} }
put_rect := fn(surface: Surface, pos: Vec2(uint), tr: Vec2(uint), color: Color): void { create_back_buffer := fn(pages: int): ^Color {
start_idx := indexptr(surface, pos.x, pos.y) if pages <= 0xFF {
end_idx := indexptr(surface, pos.x, pos.y + tr.y) return @bitcast(@inline(memory.request_page, pages))
right_start_idx := indexptr(surface, pos.x + tr.x, pos.y) }
ptr := @inline(memory.request_page, 255)
loop if start_idx > end_idx break else { remaining := pages - 0xFF
*start_idx = color; loop if remaining <= 0 break else {
*right_start_idx = color if remaining < 0xFF {
start_idx += surface.width memory.request_page(remaining)
right_start_idx += surface.width } else {
memory.request_page(0xFF)
}
remaining -= 0xFF
}
return @bitcast(ptr)
} }
memory.set(Color, &color, indexptr(surface, pos.x, pos.y), @bitcast(tr.x + 1)) clear := fn(color: Color): void {
memory.set(Color, &color, indexptr(surface, pos.x, pos.y + tr.y), @bitcast(tr.x + 1)) cursor := ctx.buf
boundary := cursor + 512
loop if cursor == boundary break else {
*cursor = color
cursor += 1
}
boundary += 512 * 7
loop if cursor == boundary break else {
*@as(^[Color; 512], @bitcast(cursor)) = *@as(^[Color; 512], @bitcast(ctx.buf))
cursor += 512
}
boundary += copy_pixels - 4096
loop if cursor == boundary break else {
*@as(^[Color; 4096], @bitcast(cursor)) = *@as(^[Color; 4096], @bitcast(ctx.buf))
cursor += 4096
}
boundary += (ctx.partitions - 1) * copy_pixels
loop if cursor == boundary break else {
*@as(^[Color; copy_pixels], @bitcast(cursor)) = *@as(^[Color; copy_pixels], @bitcast(ctx.buf))
cursor += @sizeof([u8; copy_pixels])
}
return return
} }
put_line_low := fn(surface: Surface, p0: Vec2(uint), p1: Vec2(uint), color: Color): void { sync := fn(): void {
dx := @as(int, @bitcast(p1.x - p0.x)) if ctx.double_buffer {
dy := @as(int, @bitcast(p1.y - p0.y)) bb := ctx.buf
fb := ctx.fb
boundary := bb + ctx.pixels
loop if bb == boundary break else {
*@as(^[Color; copy_pixels], @bitcast(fb)) = *@as(^[Color; copy_pixels], @bitcast(bb))
bb += copy_pixels
fb += copy_pixels
}
}
return
}
width := fn(): int {
return ctx.width
}
height := fn(): int {
return ctx.height
}
screenidx := fn(x: int, y: int): int {
return x + ctx.width * y
}
put_pixel := fn(pos: IVec2, color: Color): void {
*(ctx.buf + @inline(screenidx, pos.x, pos.y)) = color
return
}
put_filled_rect := fn(pos: IVec2, tr: IVec2, color: Color): void {
x := pos.x
y := pos.y
end := pos + tr
loop if x == end.x break else {
loop if y == end.y break else {
*(ctx.buf + @inline(screenidx, x, y)) = color
y += 1
}
x += 1
y = pos.y
}
return
}
put_rect := fn(pos: IVec2, tr: IVec2, color: Color): void {
x := pos.x
y := pos.y
end := pos + tr
loop if y == end.y break else {
*(ctx.buf + @inline(screenidx, x, y)) = color;
*(ctx.buf + @inline(screenidx, x + tr.x, y)) = color
y += 1
}
y = pos.y
loop if x == end.x break else {
*(ctx.buf + @inline(screenidx, x, y)) = color;
*(ctx.buf + @inline(screenidx, x, y + tr.y)) = color
x += 1
}
return
}
put_line_low := fn(p0: IVec2, p1: IVec2, color: Color): void {
dx := p1.x - p0.x
dy := p1.y - p0.y
yi := 1 yi := 1
if dy < 0 { if dy < 0 {
yi = -1 yi = -1
dy = -dy dy = -dy
} }
D := @as(int, 2) * dy - dx D := 2 * dy - dx
y := p0.y y := p0.y
x := p0.x x := p0.x
loop if x == p1.x break else { loop if x == p1.x break else {
*indexptr(surface, x, y) = color *(ctx.buf + @inline(screenidx, x, y)) = color
if D > 0 { if D > 0 {
y += yi y += yi
D += 2 * (dy - dx) D += 2 * (dy - dx)
@ -122,19 +203,19 @@ put_line_low := fn(surface: Surface, p0: Vec2(uint), p1: Vec2(uint), color: Colo
return return
} }
put_line_high := fn(surface: Surface, p0: Vec2(uint), p1: Vec2(uint), color: Color): void { put_line_high := fn(p0: IVec2, p1: IVec2, color: Color): void {
dx := @as(int, @bitcast(p1.x - p0.x)) dx := p1.x - p0.x
dy := @as(int, @bitcast(p1.y - p0.y)) dy := p1.y - p0.y
xi := 1 xi := 1
if dy < 0 { if dy < 0 {
xi = -1 xi = -1
dx = -dx dx = -dx
} }
D := @as(int, 2) * dx - dy D := 2 * dx - dy
x := p0.x x := p0.x
y := p0.y y := p0.y
loop if y == p1.y break else { loop if y == p1.y break else {
*indexptr(surface, x, y) = color *(ctx.buf + @inline(screenidx, x, y)) = color
if D > 0 { if D > 0 {
x += xi x += xi
D += 2 * (dx - dy) D += 2 * (dx - dy)
@ -146,327 +227,35 @@ put_line_high := fn(surface: Surface, p0: Vec2(uint), p1: Vec2(uint), color: Col
return return
} }
put_line := fn(surface: Surface, p0: Vec2(uint), p1: Vec2(uint), color: Color): void { put_line := fn(p0: IVec2, p1: IVec2, color: Color): void {
if math.abs(uint, p1.y - p0.y) < math.abs(uint, p1.x - p0.x) { if @inline(math.abs, p1.y - p0.y) < @inline(math.abs, p1.x - p0.x) {
if p0.x > p1.x { if p0.x > p1.x {
@inline(put_line_low, surface, p1, p0, color) @inline(put_line_low, p1, p0, color)
} else { } else {
@inline(put_line_low, surface, p0, p1, color) @inline(put_line_low, p0, p1, color)
} }
} else { } else {
if p0.y > p1.y { if p0.y > p1.y {
@inline(put_line_high, surface, p1, p0, color) @inline(put_line_high, p1, p0, color)
} else { } else {
@inline(put_line_high, surface, p0, p1, color) @inline(put_line_high, p0, p1, color)
} }
} }
return return
} }
put_surface := fn(surface: Surface, top: Surface, pos: Vec2(uint), flip_v: bool): void { set_height := fn(new: int): void {
src_top_cursor := top.buf
src_bottom_cursor := top.buf + top.width * (top.height - 1)
dst_top_idx := indexptr(surface, pos.x, pos.y)
dst_bottom_idx := indexptr(surface, pos.x, pos.y + top.height - 1)
dst_increment := surface.width
if flip_v {
dst_increment = -dst_increment
tmp := dst_top_idx
dst_top_idx = dst_bottom_idx
dst_bottom_idx = tmp
}
rows_to_copy := top.height
loop if rows_to_copy <= 1 break else {
memory.copy(Color, src_top_cursor, dst_top_idx, top.width)
memory.copy(Color, src_bottom_cursor, dst_bottom_idx, top.width)
dst_top_idx += dst_increment
dst_bottom_idx -= dst_increment
src_top_cursor += top.width
src_bottom_cursor -= top.width
rows_to_copy -= 2
}
if rows_to_copy == 1 {
memory.copy(Color, src_top_cursor, dst_top_idx, top.width)
}
return return
} }
// peony-made set_width := fn(new: int): void {
put_trirect := fn(surface: Surface, pos: Vec2(uint), size: Vec2(int), color0: Color, color1: Color): void {
step := Vec2(int).(1, 1)
if size.x < 0 {
step.x = -1
}
if size.y < 0 {
step.y /= @bitcast(size.x)
}
start_y := pos.y
target := pos + @bitcast(size)
loop if pos.x == target.x break else {
@inline(put_vline, surface, pos.x, pos.y, target.y, color0)
@inline(put_vline, surface, pos.x, pos.y, start_y, color1)
pos += @bitcast(step)
}
return return
} }
// peony-made dimensions := fn(): IVec2 {
put_vline := fn(surface: Surface, x: uint, y0: uint, y1: uint, color: Color): void { return .(ctx.width, ctx.height)
if y1 < y0 {
tmp := y0
y0 = y1
y1 = tmp
}
y := y0
loop if y == y1 break else {
*indexptr(surface, x, y) = color
y += 1
}
return
}
// peony-made
put_hline := fn(surface: Surface, y: uint, x0: uint, x1: uint, color: Color): void {
if x1 < x0 {
tmp := x0
x0 = x1
x1 = tmp
}
// x0 = math.min(x0, x1)
memory.set(Color, &color, indexptr(surface, x0, y), @bitcast(x1 - x0 - 1))
return
}
put_circle := fn(surface: Surface, pos: Vec2(uint), radius: uint, color: Color): void {
x := 0
y := radius
error := @as(int, 3) - @intcast(2 * radius);
*indexptr(surface, pos.x + radius, pos.y) = color;
*indexptr(surface, pos.x - radius, pos.y) = color;
*indexptr(surface, pos.x, pos.y + radius) = color;
*indexptr(surface, pos.x, pos.y - radius) = color
loop if y < x break else {
x += 1
if error > 0 {
y -= 1
error += 4 * (@intcast(x) - @intcast(y)) + 10
} else {
error += 4 * @intcast(x) + 6
};
*indexptr(surface, pos.x + x, pos.y + y) = color;
*indexptr(surface, pos.x + y, pos.y + x) = color;
*indexptr(surface, pos.x - x, pos.y + y) = color;
*indexptr(surface, pos.x - y, pos.y + x) = color;
*indexptr(surface, pos.x + x, pos.y - y) = color;
*indexptr(surface, pos.x + y, pos.y - x) = color;
*indexptr(surface, pos.x - x, pos.y - y) = color;
*indexptr(surface, pos.x - y, pos.y - x) = color
}
return
}
put_filled_circle := fn(surface: Surface, pos: Vec2(uint), radius: uint, color: Color): void {
x := 0
y := radius
error := @as(int, 3) - @intcast(2 * radius)
put_hline(surface, pos.y - x, pos.x - radius, pos.x + radius, color);
*indexptr(surface, pos.x, pos.y + radius) = color;
*indexptr(surface, pos.x, pos.y - radius) = color
loop if y < x break else {
x += 1
if error > 0 {
put_hline(surface, pos.y + y, pos.x - x, pos.x + x, color)
put_hline(surface, pos.y - y, pos.x - x, pos.x + x, color)
y -= 1
error += 4 * (@intcast(x) - @intcast(y)) + 10
} else {
error += 4 * @intcast(x) + 6
}
put_hline(surface, pos.y + x, pos.x - y, pos.x + y, color)
put_hline(surface, pos.y - x, pos.x - y, pos.x + y, color)
}
return
}
put_textured_circle := fn(surface: Surface, source: Surface, source_pos: Vec2(uint), pos: Vec2(uint), radius: uint): void {
x := 0
y := radius
error := @as(int, 3) - @intcast(2 * radius)
memory.copy(Color, indexptr(source, source_pos.x - y, source_pos.y), indexptr(surface, pos.x - y, pos.y), 2 * y);
*indexptr(surface, pos.x, pos.y + y) = *indexptr(source, source_pos.x, source_pos.y + y);
*indexptr(surface, pos.x, pos.y - y) = *indexptr(source, source_pos.x, source_pos.y - y)
loop if y < x break else {
x += 1
if error > 0 {
memory.copy(Color, indexptr(source, source_pos.x - x, source_pos.y + y), indexptr(surface, pos.x - x, pos.y + y), 2 * x)
memory.copy(Color, indexptr(source, source_pos.x - x, source_pos.y - y), indexptr(surface, pos.x - x, pos.y - y), 2 * x)
y -= 1
error += 4 * (@intcast(x) - @intcast(y)) + 10
} else {
error += 4 * @intcast(x) + 6
}
memory.copy(Color, indexptr(source, source_pos.x - y, source_pos.y + x), indexptr(surface, pos.x - y, pos.y + x), 2 * y)
memory.copy(Color, indexptr(source, source_pos.x - y, source_pos.y - x), indexptr(surface, pos.x - y, pos.y - x), 2 * y)
}
return
}
utf8_len_table := [u8].(0, 0, 2, 3)
put_text := fn(surface: Surface, font: Font, pos: Vec2(uint), color: Color, str: ^u8): void {
cursor := Vec2(uint).(pos.x, pos.y)
max_y := surface.height - font.height
next_line_y := font.height + font.line_gap
char_advance := font.width + font.char_gap
surface_width := surface.width
loop if *str == 0 break else {
if cursor.y > max_y break
glyph_data := @as(^u8, idk)
code_point := @as(uint, 0)
if (*str & 0x80) == 0 {
if *str == 10 {
cursor.x = pos.x
cursor.y += next_line_y
str += 1
continue
}
if font.unicode == null {
if *str > font.num_glyphs {
str += 1
continue
}
glyph_data = get_glyph(font, *str)
} else {
if *str < UNC_TABLE_SIZE {
glyph_index := *(font.unicode + *str)
if glyph_index == 0xFFFF {
str += 1
continue
}
glyph_data = font.data + glyph_index * font.bytes_per_glyph
} else {
str += 1
continue
}
}
str += 1
} else if font.unicode != null {
first_byte := *str
num_bytes := @as(uint, 0)
num_bytes = utf8_len_table[first_byte >> 5 & 0x3]
if num_bytes == 0 {
str += 1
continue
}
code_point = first_byte & (0x7F >> num_bytes | 0x1F)
valid_sequence := true
bytes_processed := 1
loop if bytes_processed >= num_bytes break else {
str += 1
if *str == 0 | (*str & 0xC0) != 0x80 {
valid_sequence = false
}
if valid_sequence == false {
break
}
code_point = code_point << 6 | *str & 0x3F
bytes_processed += 1
}
if valid_sequence == false {
str += 1
continue
}
str += 1
if code_point == 10 {
cursor.x = pos.x
cursor.y += next_line_y
continue
}
if code_point >= UNC_TABLE_SIZE {
continue
}
glyph_index := *(font.unicode + code_point)
if glyph_index == 0xFFFF {
continue
}
glyph_data = font.data + glyph_index * font.bytes_per_glyph
}
if cursor.x + font.width >= surface_width {
cursor.x = pos.x
cursor.y += next_line_y
}
dest := indexptr(surface, cursor.x, cursor.y)
rows := font.height
loop if rows == 0 break else {
byte := *glyph_data
pixel_dest := dest
mask := @as(u8, 0x80)
bits := font.width
loop if bits == 0 break else {
if (byte & mask) != 0 {
*pixel_dest = color
}
pixel_dest += 1
mask >>= 1
if mask == 0 & bits > 0 {
glyph_data += 1
byte = *glyph_data
mask = 0x80
}
bits -= 1
}
if mask != 0x80 {
glyph_data += 1
}
dest += surface_width
rows -= 1
}
cursor.x += char_advance
} }
set_dimensions := fn(new: IVec2): void {
return return
} }

View file

@ -0,0 +1,80 @@
.{IVec2} := @use("rel:lib.hb")
// .{pci, memory, string, log} := @use("../../stn/src/lib.hb");
Color := struct {b: u8, g: u8, r: u8, a: u8}
white := Color.(255, 255, 255, 255)
black := Color.(0, 0, 0, 255)
gray := Color.(127, 127, 127, 255)
red := Color.(0, 0, 205, 255)
green := Color.(0, 205, 0, 255)
yellow := Color.(0, 205, 205, 255)
blue := Color.(205, 0, 0, 255)
magenta := Color.(205, 0, 205, 255)
cyan := Color.(205, 205, 0, 255)
light_gray := Color.(229, 229, 229, 255)
light_red := Color.(0, 0, 255, 255)
light_green := Color.(0, 255, 0, 255)
light_yellow := Color.(0, 255, 255, 255)
light_blue := Color.(255, 0, 0, 255)
light_magenta := Color.(255, 0, 255, 255)
light_cyan := Color.(255, 255, 0, 255)
clear := fn(color: Color): void {
return
}
width := fn(): int {
return 0
}
height := fn(): int {
return 0
}
dimensions := fn(): IVec2 {
return .(0, 0)
}
put_pixel := fn(position: IVec2, color: Color): void {
return
}
put_filled_rect := fn(pos: IVec2, tr: IVec2, color: Color): void {
return
}
put_rect := fn(pos: IVec2, tr: IVec2, color: Color): void {
return
}
put_line_low := fn(p0: IVec2, p1: IVec2, color: Color): void {
return
}
// do not use, use line() instead
put_line_high := fn(p0: IVec2, p1: IVec2, color: Color): void {
return
}
put_line := fn(p0: IVec2, p1: IVec2, color: Color): void {
return
}
set_height := fn(new: int): void {
return
}
set_width := fn(new: int): void {
return
}
set_dimensions := fn(new: IVec2): void {
return
}
sync := fn(): void {
return
}
init := fn(): void {
return
}

View file

@ -1,160 +0,0 @@
.{log, memory} := @use("../../stn/src/lib.hb")
PSF1Header := packed struct {
magic: u16,
font_mode: u8,
character_size: u8,
}
PSF2Header := packed struct {
magic: u32,
version: u32,
header_size: u32,
flags: u32,
num_glyph: u32,
bytes_per_glyph: u32,
height: u32,
width: u32,
}
Font := struct {
data: ^u8,
width: uint,
height: uint,
num_glyphs: uint,
bytes_per_glyph: uint,
line_gap: uint,
char_gap: uint,
unicode: ?^u16,
}
font_from_psf1 := fn(psf: ^u8): ?Font {
header := @as(^PSF1Header, @bitcast(psf))
if header.magic != 0x436 {
log.error("failed to load psf font: not a psf1 font, idiot\0")
return null
}
psf += @sizeof(PSF1Header)
return .(
psf,
8,
header.character_size,
256,
header.character_size,
0,
0,
null,
)
}
font_from_psf2 := fn(psf: ^u8, unicode: bool): ?Font {
header := @as(^PSF2Header, @bitcast(psf))
if header.magic != 0x864AB572 {
log.error("failed to load psf font: not a psf2 font, idiot\0")
return null
}
psf += header.header_size
font := Font.(
psf,
header.width,
header.height,
header.num_glyph,
header.bytes_per_glyph,
0,
0,
null,
)
if (header.flags & 1) != 0 & unicode {
init_unicode(&font)
}
return font
}
$get_glyph := fn(font: Font, index: u8): ^u8 {
return font.data + @as(uint, index) * font.bytes_per_glyph
}
$UNC_TABLE_SIZE := 1 << 16
init_unicode := fn(font: ^Font): void {
font.unicode = memory.alloc(u16, UNC_TABLE_SIZE)
memory.set(u16, &0xFFFF, font.unicode, UNC_TABLE_SIZE)
table := font.data + font.num_glyphs * font.bytes_per_glyph
curr_glyph := @as(u16, 0)
loop if curr_glyph >= font.num_glyphs break else {
loop {
byte := *table
table += 1
if byte == 0xFF break
if byte == 0xFE {
continue
}
unicode := @as(uint, 0)
bytes_to_read := @as(uint, 1)
if (byte & 0x80) == 0 {
unicode = byte
} else if (byte & 0xE0) == 0xC0 {
unicode = byte & 0x1F
bytes_to_read = 2
} else if (byte & 0xF0) == 0xE0 {
unicode = byte & 0xF
bytes_to_read = 3
} else if (byte & 0xF8) == 0xF0 {
unicode = byte & 0x7
bytes_to_read = 4
} else {
continue
}
valid := true
loop if bytes_to_read <= 1 break else {
next_byte := *table
if (next_byte & 0xC0) != 0x80 {
valid = false
break
}
unicode = unicode << 6 | next_byte & 0x3F
table += 1
bytes_to_read -= 1
}
if valid == false continue
if bytes_to_read == 4 {
if unicode < 0x10000 | unicode > 0x10FFFF continue
if unicode <= 0xFFFF {
if unicode < UNC_TABLE_SIZE {
*(@unwrap(font.unicode) + unicode) = curr_glyph
}
} else {
unicode -= 0x10000
high_surrogate := 0xD800 | unicode >> 10 & 0x3FF
low_surrogate := 0xDC00 | unicode & 0x3FF
if high_surrogate < UNC_TABLE_SIZE {
*(@unwrap(font.unicode) + high_surrogate) = curr_glyph
}
if low_surrogate < UNC_TABLE_SIZE {
*(@unwrap(font.unicode) + low_surrogate) = curr_glyph
}
}
} else {
if unicode < UNC_TABLE_SIZE {
*(@unwrap(font.unicode) + unicode) = curr_glyph
}
}
}
curr_glyph += 1
}
}

View file

@ -1,31 +0,0 @@
//! This is a reserved file for use with the AbleOS Clustering System
HostID := int
ID := int
FileID := struct {
host_id: HostID,
id: ID,
}
// A DeviceID points to a specific device in the ACS.
DeviceID := struct {
host_id: HostID,
id: ID,
}
DiskID := DeviceID
BufferID := struct {
host_id: HostID,
id: ID,
}
ProcessID := struct {
host_id: HostID,
id: ID,
}
WindowID := struct {
host_id: HostID,
id: ID,
}

View file

@ -1,35 +1,22 @@
string := @use("string.hb") string := @use("rel:string.hb")
$recv := fn($Expr: type, buffer_id: uint, memory_map_location: ^Expr): void { receive_message := fn(buffer_id: int, memory_map_location: ^u8, length: int): ^u8 {
return @eca(4, buffer_id, memory_map_location, @sizeof(Expr)) return @eca(^u8, 4, buffer_id, memory_map_location, length)
} }
$write := fn($Expr: type, buffer_id: uint, msg: ^Expr): void { send_message := fn(msg: ^u8, buffer_id: int, length: int): void {
return @eca(3, buffer_id, msg, @sizeof(Expr)) return @eca(void, 3, buffer_id, msg, length)
} }
$recv_length := fn(length: uint, memory_map_location: ^u8, buffer_id: uint): void { create := fn(msg: ^u8): int {
return @eca(4, buffer_id, memory_map_location, length) msg_length := @inline(string.length, msg);
*msg = 0
return @eca(int, 3, 0, msg, msg_length)
} }
$write_length := fn(length: uint, msg: ^u8, buffer_id: uint): void { search := fn(msg: ^u8): int {
return @eca(3, buffer_id, msg, length) msg_length := @inline(string.length, msg);
} *msg = 3
BufferMsg := packed struct {operation: u8, msg: ^u8, msg_len: uint} return @eca(int, 3, 0, msg, msg_length)
create := fn(msg: ^u8): uint {
return @eca(3, 0, BufferMsg.(0, msg, @inline(string.length, msg)), @sizeof(BufferMsg))
}
$create_nameless := fn(): uint {
return @eca(1, 0)
}
$delete_buffer := fn(buffer_id: uint): void {
return @eca(2, buffer_id)
}
search := fn(msg: ^u8): uint {
return @eca(3, 0, BufferMsg.(3, msg, @inline(string.length, msg)), @sizeof(BufferMsg))
} }

View file

@ -1,5 +0,0 @@
.{string} := @use("../../stn/src/lib.hb")
get := fn($Expr: type, query: ^u8): Expr {
return @eca(3, 5, query, @inline(string.length, query))
}

View file

@ -1,31 +0,0 @@
acs := @use("acs.hb");
.{DiskID, FileID} := acs
// Paths without a node-disk component are to be treated as local files.
// file_path := "DID:/test\0";
Path := struct {
// DiskID holds the host id
disk_id: DiskID,
length: u8,
data: ^u8,
}
open := fn(file_path: Path): FileID {
}
close := fn(file_id: FileID): int {
}
// This reads in page_count of pages out of the file. If file_size is less than an exact multiple of pages do something.
// TODO: Figureout how to encode errors.
read_pages := fn(file_id: FileID, offset: int, page_count: int): void {
}
// This writes out page_count of pages out of the file.
write_pages := fn(file_id: FileID, offset: int, page_count: int): void {
}
// This reads out byte_count of bytes from the file.
read_bytes := fn(file_id: FileID, offset: int, byte_count: int): void {
}
write_bytes := fn(file_id: FileID, offset: int, byte_count: int): void {
}

View file

@ -1,20 +1,7 @@
acs := @use("acs.hb") string := @use("rel:string.hb")
string := @use("string.hb") log := @use("rel:log.hb")
log := @use("log.hb") memory := @use("rel:memory.hb")
memory := @use("memory.hb") buffer := @use("rel:buffer.hb")
buffer := @use("buffer.hb") math := @use("rel:math.hb")
math := @use("math.hb") random := @use("rel:random.hb")
random := @use("random.hb") pci := @use("rel:pci.hb")
file := @use("file_io.hb")
dt := @use("dt.hb")
process := @use("process.hb")
panic := fn(message: ?^u8): never {
log.error("Error: Panic Called, Message:\0")
if message == null {
log.error("None\0")
} else {
log.error(message)
}
die
}

View file

@ -1,13 +1,15 @@
string := @use("string.hb") string := @use("rel:string.hb")
buffer := @use("rel:buffer.hb")
LogMsg := packed struct {level: u8, string: ^u8, strlen: uint} log := fn(message: ^u8, level: u8): void {
message_length := @inline(string.length, message);
log := fn(level: u8, message: ^u8): void { *(message + message_length) = level
return @eca(3, 1, LogMsg.(level, message, @inline(string.length, message)), @sizeof(LogMsg)) @eca(i32, 3, 1, message, message_length + 1)
return
} }
error := fn(message: ^u8): void return @inline(log, 0, message) error := fn(message: ^u8): void return log(message, 0)
warn := fn(message: ^u8): void return @inline(log, 1, message) warn := fn(message: ^u8): void return log(message, 1)
info := fn(message: ^u8): void return @inline(log, 2, message) info := fn(message: ^u8): void return log(message, 2)
debug := fn(message: ^u8): void return @inline(log, 3, message) debug := fn(message: ^u8): void return log(message, 3)
trace := fn(message: ^u8): void return @inline(log, 4, message) trace := fn(message: ^u8): void return log(message, 4)

File diff suppressed because one or more lines are too long

View file

@ -1,76 +1,39 @@
$PAGE_SIZE := 4096 request_page := fn(page_count: u8): ^u8 {
$MAX_ALLOC := 0xFF msg := "\{00}\{01}xxxxxxxx\0"
$MAX_FREE := 0xFF msg_page_count := msg + 1;
*msg_page_count = page_count
$uninit := fn($Expr: type): ?Expr { return @eca(^u8, 3, 2, msg, 12)
return null
} }
$dangling := fn($Expr: type): ^Expr { release_page := fn(ptr: ^u8, page_count: u8): void {
return @bitcast(@alignof(Expr)) msg := "\{01}\{00}xxxxxxxx\0"
msg_page_count := msg + 1;
*msg_page_count = page_count
msg_ptr := @as(^^u8, @bitcast(msg + 2));
*msg_ptr = ptr
return @eca(void, 3, 2, msg, 12)
} }
$calc_pages := fn($Expr: type, num: uint): uint { OutbMsg := struct {a: u8, b: u8, addr: u16, value: u8}
return 1 + @sizeof(Expr) * num / PAGE_SIZE InbMsg := struct {a: u8, b: u8, addr: u16}
OutlMsg := struct {a: u8, b: u8, addr: u16, value: u32}
InlMsg := struct {a: u8, b: u8, addr: u16}
outb := fn(addr: u16, value: u8): void {
return @eca(void, 3, 3, &OutbMsg.(1, 0, addr, value), @sizeof(OutbMsg))
} }
// ! will be replaced, don't get attached inb := fn(addr: u16): u8 {
alloc := fn($Expr: type, num: uint): ^Expr { return @eca(u8, 3, 3, &InbMsg.(0, 0, addr), @sizeof(InbMsg))
pages := calc_pages(Expr, num)
if pages <= MAX_ALLOC {
return @bitcast(request_page(@intcast(pages)))
}
ptr := request_page(MAX_ALLOC)
remaining := pages - MAX_ALLOC
loop if remaining < MAX_ALLOC break else {
_ = request_page(MAX_ALLOC)
remaining -= MAX_ALLOC
}
_ = request_page(@intcast(remaining))
return @bitcast(ptr)
} }
// ! stub outl := fn(addr: u16, value: u32): void {
$free := fn($Expr: type, ptr: ^Expr, num: uint, nullify: bool): void { return @eca(void, 3, 3, &OutlMsg.(1, 2, addr, value), @sizeof(OutlMsg))
return
} }
RqPageMsg := packed struct {a: u8, count: u8} inl := fn(addr: u16): u32 {
$request_page := fn(count: u8): ^u8 { return @eca(u32, 3, 3, &InlMsg.(0, 2, addr), @sizeof(InlMsg))
return @eca(3, 2, &RqPageMsg.(0, count), @sizeof(RqPageMsg))
}
RlPageMsg := packed struct {a: u8, count: u8, ptr: ^u8}
$release_page := fn(ptr: ^u8, count: u8): void {
return @eca(3, 2, &RlPageMsg.(1, count, ptr), @sizeof(RlPageMsg))
}
OutbMsg := packed struct {a: u8, b: u8, addr: u16, value: u8}
$outb := fn(addr: u16, value: u8): void {
return @eca(3, 3, &OutbMsg.(1, 0, addr, value), @sizeof(OutbMsg))
}
InbMsg := packed struct {a: u8, b: u8, addr: u16}
$inb := fn(addr: u16): u8 {
return @eca(3, 3, &InbMsg.(0, 0, addr), @sizeof(InbMsg))
}
OutlMsg := packed struct {a: u8, b: u8, addr: u16, value: u32}
$outl := fn(addr: u16, value: u32): void {
return @eca(3, 3, &OutlMsg.(1, 2, addr, value), @sizeof(OutlMsg))
}
InlMsg := packed struct {a: u8, b: u8, addr: u16}
$inl := fn(addr: u16): u32 {
return @eca(3, 3, &InlMsg.(0, 2, addr), @sizeof(InlMsg))
}
CopyMsg := packed struct {a: u8, count: u32, src: ^u8, dest: ^u8}
$copy := fn($Expr: type, src: ^Expr, dest: ^Expr, count: uint): void {
return @eca(3, 2, &CopyMsg.(4, @intcast(count * @sizeof(Expr)), @bitcast(src), @bitcast(dest)), @sizeof(CopyMsg))
}
SetMsg := packed struct {a: u8, count: u32, size: u32, src: ^u8, dest: ^u8}
$set := fn($Expr: type, src: ^Expr, dest: ^Expr, count: uint): void {
return @eca(3, 2, &SetMsg.(5, @intcast(count), @intcast(@sizeof(Expr)), @bitcast(src), @bitcast(dest)), @sizeof(SetMsg))
} }

View file

@ -0,0 +1,50 @@
.{inl, outl} := @use("rel:memory.hb")
config_read := fn(bus: u8, device: u8, func: u8, offset: u8): u32 {
lbus := @as(u32, bus)
ldevice := @as(u32, device)
lfunc := @as(u32, func)
loffset := @as(u32, offset)
address := lbus << 16 | ldevice << 11 | lfunc << 8 | loffset & 0xFC | @as(u32, 0x80000000)
outl(0xCF8, address)
return inl(0xCFC)
}
config_write := fn(bus: u8, device: u8, func: u8, offset: u8, value: u32): void {
lbus := @as(u32, bus)
ldevice := @as(u32, device)
lfunc := @as(u32, func)
loffset := @as(u32, offset)
address := lbus << 16 | ldevice << 11 | lfunc << 8 | loffset & 0xFC | @as(u32, 0x80000000)
outl(0xCF8, address)
outl(0xCFC, value)
}
get_header_type := fn(bus: u8, device: u8, func: u8): u8 {
return @as(u8, config_read(bus, device, func, 0xC) >> 16 & 0xFF)
}
Ids := struct {vendor: u16, device: u16}
get_ids := fn(bus: u8, device: u8, func: u8): Ids {
res := config_read(bus, device, func, 0)
return .(@as(u16, res >> 16 & 0xFFFF), @as(u16, res & 0xFFFF))
}
PciDeviceInfo := struct {header_type: u8, device: u8, bus: u8, device_id: Ids, full_class: u16, rev_id: u8}
check_device := fn(bus: u8, device: u8): PciDeviceInfo {
ids := get_ids(bus, device, 0)
if ids.vendor == 0xFFFF {
return .(0, 0, 0, .(0, 0), 0, 0)
}
reg2 := config_read(bus, device, 0, 0x8)
class := @as(u16, reg2 >> 16 & 0xFFFF)
header_type := get_header_type(bus, device, 0)
return .(header_type, device, bus, ids, class, @as(u8, reg2 & 0xFF))
}

View file

@ -1,12 +0,0 @@
// ! will be rewritten to take a file object when filesystem is exist
// returns PID
$spawn := fn(proc_exe: ^u8, length: uint): uint {
return @eca(3, 6, proc_exe, length)
}
/* TODO:
- Spawn an empty process
- Call a function to load bytes into that process from a function
Or
- Manually fill the bytes in
- Execute the process via a run type command */

View file

@ -1,7 +1,7 @@
any := fn($Expr: type): Expr { integer := fn(): int {
return *@eca(3, 4, &@as(Expr, idk), @sizeof(Expr)) return @eca(int, 3, 4)
} }
range := fn($Expr: type, min: Expr, max: Expr): Expr { integer_range := fn(min: int, max: int): int {
return *@eca(3, 4, &@as(Expr, idk), @sizeof(Expr)) % (max - min) + *@bitcast(&1) + min return @eca(int, 3, 4) % (max - min + 1) + min
} }

View file

@ -1,6 +0,0 @@
subscribe_to_interrupt := fn(interrupt_number: u8): bool {
return false
}
// Pauses execution until the interrupt occures
sleep_until_interrupt := fn(interrupt_number: u8): void {
}

View file

@ -1,63 +1,48 @@
length := fn(ptr: ^u8): uint { length := fn(ptr: ^u8): int {
len := 0 len := 0
loop if *(ptr + len) == 0 return len else len += 1 loop if *(ptr + len) == 0 break else len += 1
return len
} }
display_int := fn(num: int, p: ^u8, radix: uint): ^u8 { // WTFFF is wrong with display_int
is_negative := num < 0 display_int := fn(num: int, p: ^u8): ^u8 {
if is_negative num = -num
ptr := p ptr := p
negative := num < 0
if negative {
num = -num
}
if num == 0 { if num == 0 {
*ptr = 0x30; *ptr = 48
*(ptr + 1) = 0 ptr += 1
return p } else {
}
loop if num == 0 break else { loop if num == 0 break else {
remainder := num % @bitcast(radix) *ptr = num % 10 + 48
num /= @bitcast(radix);
*ptr = @intcast(remainder + 0x30)
if remainder > 9 {
*ptr = @intcast(remainder - 10 + 0x41)
}
ptr += 1 ptr += 1
num /= 10
} }
}
if is_negative { if negative {
*ptr = 0x2D *ptr = 45
ptr += 1 ptr += 1
} };
// ! it gets broked when you do this ?? *ptr = 0
// *ptr = 0
@inline(reverse, p) @inline(reverse, p)
return p return p
} }
reverse := fn(s: ^u8): void { reverse := fn(s: ^u8): void {
j := s + @inline(length, s) - 1 //reverse a string, don't remove digits
temp := @as(u8, 0) len := 0
loop if s < j { loop if *(s + len) == 0 break else len += 1
temp = *s; i := 0
*s = *j; j := len - 1
*j = temp temp := 0
s += 1 loop if i >= j break else {
temp = *(s + i);
*(s + i) = *(s + j);
*(s + j) = temp
i += 1
j -= 1 j -= 1
} else return
}
equals := fn(lhs: ^u8, rhs: ^u8): bool {
if lhs == rhs {
return true
}
loop if *lhs != *rhs {
return false
} else if *lhs == 0 {
return true
} else {
lhs += 1
rhs += 1
} }
return
} }

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