//! AbleOS Kernel Entrypoint use { crate::{ arch::hardware_random_u64, bootmodules::BootModules, //bootmodules::build_cmd, device_tree::DeviceTree, holeybytes::ExecThread, ipc::buffer::IpcBuffer, }, hashbrown::HashMap, hbvm::mem::Address, limine::{Framebuffer, FramebufferRequest, NonNullPtr}, log::{debug, trace}, spin::{Lazy, Mutex}, }; pub fn kmain(_cmdline: &str, boot_modules: BootModules) -> ! { debug!("Entered kmain"); // let kcmd = build_cmd("Kernel Command Line", cmdline); // trace!("Cmdline: {kcmd:?}"); // for (i, bm) in boot_modules.iter().enumerate() { // let name = format!("module-{}", i); // let _bmcmd: XMLElement; // if bm.cmd.len() >= 2 { // // TODO: pass into the program // // Pass CMDLine into an IPCBuffer and put the ptr to the IPCBuffer in r200 // _bmcmd = build_cmd(name, bm.cmd.clone()); // log::info!("{:?}", _bmcmd); // } // } let dt = DEVICE_TREE.lock(); // TODO(Able): This line causes a deadlock debug!("Device Tree: {}", dt); trace!("Boot complete. Moving to init_system"); // TODO: schedule the disk driver from the initramfs // TODO: schedule the filesystem driver from the initramfs // TODO: Schedule the VFS from initramfs // TODO: schedule the init system from the initramfs drop(dt); let fb1: &NonNullPtr = &FB_REQ.get_response().get().unwrap().framebuffers()[0]; { use crate::alloc::string::ToString; let mut dt = DEVICE_TREE.lock(); let mut disp = xml::XMLElement::new("display_0"); disp.set_attribute("width", fb1.width); disp.set_attribute("height", fb1.height); disp.set_attribute("bits per pixel", fb1.bpp); disp.set_attribute("pitch", fb1.pitch); dt.devices.insert("Displays".to_string(), alloc::vec![disp]); } debug!("Graphics initialised"); debug!( "Graphics front ptr {:?}", fb1.address.as_ptr().unwrap() as *const u8 ); let mut executor = crate::task::Executor::new(256); unsafe { for module in boot_modules.iter() { let cmd = module.cmd.trim_matches('"'); let cmd_len = cmd.len() as u64; log::info!("Spawning {} with arguments \"{}\"", module.path, cmd); // decode AbleOS Executable format let header = &module.bytes[0..46]; let magic_slice = &header[0..3]; if magic_slice != [0x15, 0x91, 0xD2] { log::warn!("Non-AbleOS Executable was attempted to be run.") } let executable_format_version = u32::from_be_bytes(header[3..7].try_into().unwrap()); let offset = if executable_format_version == 0 { 47 } else { 0 }; // let code_length = u64::from_be_bytes(header[7..15].try_into().unwrap()); // let data_length = u64::from_be_bytes(header[15..23].try_into().unwrap()); // let end = (code_length + data_length) as usize; let mut thr = ExecThread::new(&module.bytes[offset..], Address::new(0)); if cmd_len > 0 { thr.set_arguments(cmd.as_ptr() as u64, cmd_len); } executor.spawn(async move { if let Err(e) = thr.await { log::error!("{e:?}"); } }) } debug!("Random number: {}", hardware_random_u64()); executor.run(); }; crate::arch::spin_loop() } pub static DEVICE_TREE: Lazy> = Lazy::new(|| { let dt = DeviceTree::new(); Mutex::new(dt) }); pub static FB_REQ: FramebufferRequest = FramebufferRequest::new(0); pub type IpcBuffers<'a> = HashMap>; pub static IPC_BUFFERS: Lazy> = Lazy::new(|| { let mut bufs = HashMap::new(); let log_buffer = IpcBuffer::new(false, 0); let file_buffer = IpcBuffer::new(false, 0); bufs.insert(1, log_buffer); bufs.insert(2, file_buffer); Mutex::new(bufs) }); #[test_case] fn trivial_assertion() { trace!("trivial assertion... "); assert_eq!(1, 1); info!("[ok]"); }