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ableos_time/ableos/src/scratchpad.rs
2022-06-13 22:25:39 -05:00

273 lines
6.7 KiB
Rust

use crate::arch::generate_process_pass;
use crate::arch::interrupts::{reset_pit_for_cpu, set_pit_2};
use crate::devices::pci;
use crate::filesystem::FILE_SYSTEM;
use crate::rhai_shell::shell;
use crate::rhai_shell::KEYBUFF;
use crate::wasm_jumploader::run_program;
use crate::{SCREEN_BUFFER};
use acpi::{AcpiTables, PlatformInfo};
use cpuio::inb;
use cpuio::outb;
use genfs::Fs;
use genfs::OpenOptions;
use vga::writers::GraphicsWriter;
// TODO: move to a better place
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct AcpiStruct {}
impl acpi::AcpiHandler for AcpiStruct {
unsafe fn map_physical_region<T>(
&self,
physical_address: usize,
size: usize,
) -> acpi::PhysicalMapping<Self, T> {
info!("PHYS ADDR: {:?}", physical_address);
info!("Size: {:?}", size);
todo!("map_physical_region");
}
fn unmap_physical_region<T>(_region: &acpi::PhysicalMapping<Self, T>) {
todo!("unmap_physical_region");
}
}
pub struct Path {
pub path: Vec<String>,
}
impl Path {
pub fn new(path: String) -> Self {
let mut path_vec_string = vec![];
for part in path.split(&['\\', '/'][..]) {
path_vec_string.push(part.to_string());
}
Path {
path: path_vec_string,
}
}
}
/// Experimental scratchpad for testing.
pub fn scratchpad() {
let axel_raw = "kernel{
vals=
time: 123
fn|
print: (None) -> (None);
foo: (None) -> (Num);
}";
let axel = axel::parse(axel_raw.to_string());
let xyz = pci::brute_force_scan();
for dev in xyz {
trace!("{:?}", dev);
dev.bars.iter().for_each(|bar| {
trace!("{:?}", bar);
});
}
for node in axel {
info!("{:?}", node);
}
/*
use crate::devices::pci::brute_force_scan;
let infos = brute_force_scan();
for device in infos {
match device.vendor_id {
0x1af4 => {
info!("Found virtio device");
use crate::virtio::device_handler;
device_handler(device);
}
_ => {
info!("Found unknown device");
}
}
}
*/
let _abc = Path::new("/home/able".to_string());
for _ in 0..10 {
debug!("{}", generate_process_pass());
}
/*
debug!("start the graphics");
let mut abcde = SCREEN_BUFFER.lock();
abcde.force_redraw();
abcde.draw_filled_circle(100, 100, 300, 0x0000ff00);
abcde.draw_unfilled_rect(100, 100, 400, 200, 0xff000000);
abcde.draw_filled_rect(300, 300, 400, 400, 0xff000000);
abcde.draw_line(100, 100, 400, 200, 0xff000000);
abcde.copy_to_buffer();
debug!("end the graphics");
// */
real_shell();
}
use crate::graphics::VgaBuffer;
pub fn acpi() {
let acpi_handler = AcpiStruct {};
let _table;
unsafe {
_table = AcpiTables::search_for_rsdp_bios(acpi_handler);
}
match _table.unwrap().platform_info().unwrap() {
PlatformInfo {
power_profile,
interrupt_model,
..
} => {
info!("{:?}", power_profile);
info!("{:?}", interrupt_model);
// info!("{:?}", processor_info.unwrap());
// info!("{:?}", pm_timer.unwrap());
}
}
}
pub fn real_shell() {
let _current_dir = "/".to_string();
let current_user = "able".to_string();
let mut buf = String::new();
print!("> ");
loop {
match x86_64::instructions::interrupts::without_interrupts(|| KEYBUFF.lock().pop()) {
Some('\n') => {
// match engine.eval_with_scope::<rhai::Dynamic>(&mut scope, &buf) {
// Ok(o) => println!("{o}"),
// Err(e) => println!("Eval error: {e}"),
// };
if !buf.is_empty() {
command_parser(current_user.clone(), buf.clone());
}
buf.clear();
print!("> ");
}
Some('\u{0008}') => {
buf.pop();
}
Some('\u{0009}') => {
buf.push(' ');
buf.push(' ');
buf.push(' ');
buf.push(' ');
}
Some(chr) => buf.push(chr),
None => (),
}
}
}
pub fn command_parser(user: String, command: String) {
let fs = &*FILE_SYSTEM.lock();
let mut iter = command.split_whitespace();
let bin_name = iter.next().unwrap();
if bin_name == "rhai" {
drop(fs);
shell();
return;
}
let home_exec_path = format!("/home/{}/bins/{}.wasm", user, bin_name);
let shared_exec_path = format!("/shared/bins/{}.wasm", bin_name);
let system_exec_path = format!("/system/bins/{}.wasm", bin_name);
let home_exec_file = fs.open(&home_exec_path.as_bytes(), OpenOptions::new().read(true));
let shared_exec_file = fs.open(&shared_exec_path.as_bytes(), OpenOptions::new().read(true));
let system_exec_file = fs.open(&system_exec_path.as_bytes(), OpenOptions::new().read(true));
let mut in_home = false;
let mut in_shared = false;
let mut in_system = false;
let mut binary_prog: Vec<u8> = vec![];
match home_exec_file {
Ok(file) => {
let ret = file.read_to_end(&mut binary_prog).unwrap();
in_home = true;
}
Err(error) => {
trace!("{:?}", error);
in_home = false;
}
}
match shared_exec_file {
Ok(file) => {
let ret = file.read_to_end(&mut binary_prog).unwrap();
in_shared = true;
}
Err(error) => {
trace!("{:?}", error);
in_shared = false;
}
}
match system_exec_file {
Ok(file) => {
let ret = file.read_to_end(&mut binary_prog).unwrap();
in_system = true;
}
Err(error) => {
trace!("{:?}", error);
in_system = false;
}
}
let args = iter.collect::<Vec<&str>>();
println!("{:?}", args);
if in_home || in_shared || in_system {
run_program(binary_prog);
} else {
println!("No such binary: {}", bin_name);
error!("No such binary: {}", bin_name);
}
}
pub fn sound(n_frequency: u32) {
let div: u32;
let tmp: u8;
div = 1193180 / n_frequency;
unsafe {
outb(0xb6, 0x43);
set_pit_2(div);
//And play the sound using the PC speaker
tmp = inb(0x61);
if tmp != (tmp | 3) {
outb(tmp | 3, 0x61);
}
}
}
pub fn sound_off() {
unsafe {
let tmp = inb(0x61) & 0xFC;
outb(tmp, 0x61)
};
reset_pit_for_cpu();
}