Ran cargo fmt, clippy fixes, suppressed some warns

I will start working on stack traces tonight and tomorrow. We need to be able to 'unwind' by finding calling functions.
2025-03-04 23:06:47 +00:00
parent 8704b5d249
commit d53661b9a0
25 changed files with 300 additions and 176 deletions
@@ -2,14 +2,17 @@ use core::fmt;
 use spin::{Lazy, Mutex};
 use x86_64::instructions::interrupts;
-use crate::arch::x86_64::drivers::framebuffer::{colour::Colour, display::FRAMEBUFFER_WRITER};
+use crate::arch::x86_64::drivers::framebuffer::{
    colour::Colour, display::FRAMEBUFFER_WRITER,
 };
 use crate::resources::font::{FONT_SPLEEN_8X16, Font};
 static FONT_WIDTH: u32 = 8;
 static FONT_HEIGHT: u32 = 16;
-pub static WRITER: Lazy<Mutex<Writer>> = Lazy::new(|| Mutex::new(Writer::new()));
+pub static WRITER: Lazy<Mutex<Writer>> =
    Lazy::new(|| Mutex::new(Writer::new()));
 pub fn screensize_chars() -> (u32, u32) {
    let writer = WRITER.lock();
@@ -71,21 +74,31 @@ impl Writer {
            return;
        }
-        // Get the character data from the font array. -- each byte is a row of pixels
+        // Get the character data from the font array. -- each byte is a row of
        // pixels
        let data: &[u8] = self.font.glyph_for(c as u16);
        if let Some(writer) = FRAMEBUFFER_WRITER.lock().as_mut() {
            for (row, line) in data.iter().enumerate().take(16) {
                for col in 0..8 {
                    let pixel_x: u32 = self.text_col * FONT_WIDTH + col;
-                    let pixel_y: u32 = self.text_line * FONT_HEIGHT + row as u32;
+                    let pixel_y: u32 =
                        self.text_line * FONT_HEIGHT + row as u32;
                    if line & (0x80 >> col) != 0 {
                        // Write the foreground color
-                        writer.write_pixel(pixel_x as usize, pixel_y as usize, self.fg_color);
+                        writer.write_pixel(
                            pixel_x as usize,
                            pixel_y as usize,
                            self.fg_color,
                        );
                    } else {
                        // Write the background color
-                        writer.write_pixel(pixel_x as usize, pixel_y as usize, self.bg_color);
+                        writer.write_pixel(
                            pixel_x as usize,
                            pixel_y as usize,
                            self.bg_color,
                        );
                    }
                }
            }
@@ -117,8 +130,8 @@ impl Writer {
        }
    }
-    /// Handles the backspace character. TODO: Implement VT-100 style terminal control
+    /// Handles the backspace character. TODO: Implement VT-100 style terminal
-    /// codes alongside a shell. Not simple.
+    /// control codes alongside a shell. Not simple.
    pub fn backspace(&mut self) {
        if self.text_col > 0 {
            self.text_col -= 1;
@@ -19,9 +19,14 @@ impl From<Colour> for u32 {
    fn from(val: Colour) -> Self {
        match val {
            Colour::ARGB(a, r, g, b) => {
-                (a as u32) << 24 | (r as u32) << 16 | (g as u32) << 8 | (b as u32)
+                (a as u32) << 24
                    | (r as u32) << 16
                    | (g as u32) << 8
                    | (b as u32)
            }
            Colour::RGB(r, g, b) => {
                ((r as u32) << 16) | (g as u32) << 8 | (b as u32)
            }
            Colour::RGB(r, g, b) => ((r as u32) << 16) | (g as u32) << 8 | (b as u32),
            Colour::HexARGB(hex) => hex,
            Colour::Black => 0xFF000000,
            Colour::Blue => 0xFF0000FF,
@@ -38,7 +43,9 @@ impl From<Colour> for u32 {
 impl core::fmt::Display for Colour {
    fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
        match self {
-            Self::ARGB(r, g, b, a) => write!(f, "RGBA(#{:x}{:x}{:x}{:x})", r, g, b, a),
+            Self::ARGB(r, g, b, a) => {
                write!(f, "RGBA(#{:x}{:x}{:x}{:x})", r, g, b, a)
            }
            Self::RGB(r, g, b) => write!(f, "RGB(#{:x}{:x}{:x})", r, g, b),
            Self::HexARGB(hex) => write!(f, "Hex(#{:x})", hex),
            Self::Black => write!(f, "Black"),
@@ -10,17 +10,19 @@ use core::panic;
 use limine::framebuffer::Framebuffer;
 use spin::{Lazy, Mutex};
-pub static FRAMEBUFFER_WRITER: Lazy<Mutex<Option<FramebufferWriter>>> = Lazy::new(|| {
+pub static FRAMEBUFFER_WRITER: Lazy<Mutex<Option<FramebufferWriter>>> =
    Lazy::new(|| {
        Mutex::new(FRAMEBUFFER_REQUEST.get_response().map_or_else(
            || {
                panic!("Framebuffer request failed");
            },
            |framebuffer_response| {
-            let framebuffer = framebuffer_response.framebuffers().next().unwrap();
+                let framebuffer =
                    framebuffer_response.framebuffers().next().unwrap();
                Some(FramebufferWriter::new(framebuffer))
            },
        ))
-});
+    });
 /// The updated writer stores necessary fields from the [Framebuffer].
 /// This ensures that the contained types are Send, as Framebuffer was
@@ -28,7 +30,8 @@ pub static FRAMEBUFFER_WRITER: Lazy<Mutex<Option<FramebufferWriter>>> = Lazy::ne
 ///
 /// It also avoids the requirement for lifetimes.
 ///
-/// Note this does not implement Writer as these functions only handle drawing pixels.
+/// Note this does not implement Writer as these functions only handle drawing
 /// pixels.
 pub struct FramebufferWriter {
    pitch: u64,
    bpp: u16,
@@ -6,20 +6,24 @@ use core::{
 use crate::println;
 use crossbeam::queue::ArrayQueue;
 use futures_util::{Stream, StreamExt, task::AtomicWaker};
-use pc_keyboard::{DecodedKey, HandleControl, KeyCode, Keyboard, ScancodeSet1, layouts::Uk105Key};
+use pc_keyboard::{
    DecodedKey, HandleControl, KeyCode, Keyboard, ScancodeSet1,
    layouts::Uk105Key,
 };
 use spin::{Lazy, Mutex, Once};
 static KBD_QUEUE: Once<ArrayQueue<u8>> = Once::new();
 static WAKER: AtomicWaker = AtomicWaker::new();
-pub static KEYBOARD: Lazy<Mutex<Keyboard<Uk105Key, ScancodeSet1>>> = Lazy::new(|| {
+pub static KEYBOARD: Lazy<Mutex<Keyboard<Uk105Key, ScancodeSet1>>> =
    Lazy::new(|| {
        Mutex::new(Keyboard::new(
            ScancodeSet1::new(),
            // TODO: Expose an API to change the default KB layout.
            Uk105Key,
            HandleControl::Ignore,
        ))
-});
+    });
 pub static SCANCODE_STREAM: Lazy<Mutex<ScancodeStream>> =
    Lazy::new(|| Mutex::new(ScancodeStream::new()));
@@ -59,7 +63,10 @@ impl Default for ScancodeStream {
 impl Stream for ScancodeStream {
    type Item = u8;
-    fn poll_next(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Option<Self::Item>> {
+    fn poll_next(
        self: Pin<&mut Self>,
        cx: &mut Context<'_>,
    ) -> Poll<Option<Self::Item>> {
        let queue = KBD_QUEUE.get().unwrap();
        if let Some(scancode) = queue.pop() {
@@ -1,9 +1,13 @@
 use crate::serial_print;
 use pic8259::ChainedPics;
 use x86_64::registers::control::Cr2;
-use x86_64::structures::idt::{InterruptDescriptorTable, InterruptStackFrame, PageFaultErrorCode};
+use x86_64::structures::idt::{
    InterruptDescriptorTable, InterruptStackFrame, PageFaultErrorCode,
 };
 use x86_64::structures::paging::mapper::MapperFlushAll;
-use x86_64::structures::paging::{FrameAllocator, Mapper, Page, PageTableFlags, Size4KiB};
+use x86_64::structures::paging::{
    FrameAllocator, Mapper, Page, PageTableFlags, Size4KiB,
 };
 use super::gdt;
 use crate::arch::x86_64::memory::{FRAME_ALLOCATOR, OFFSET_PAGE_TABLE};
@@ -25,7 +29,8 @@ static IDT: Lazy<InterruptDescriptorTable> = Lazy::new(|| {
    idt.page_fault.set_handler_fn(page_fault_handler);
    idt[InterruptIndex::Timer.as_u8()].set_handler_fn(timer_interrupt_handler);
-    idt[InterruptIndex::Keyboard.as_u8()].set_handler_fn(keyboard_interrupt_handler);
+    idt[InterruptIndex::Keyboard.as_u8()]
        .set_handler_fn(keyboard_interrupt_handler);
    idt
 });
@@ -90,13 +95,16 @@ extern "x86-interrupt" fn double_fault_handler(
    panic!("Exception: Double Fault\n{:#?}", stack_frame);
 }
-extern "x86-interrupt" fn keyboard_interrupt_handler(_stack_frame: InterruptStackFrame) {
+extern "x86-interrupt" fn keyboard_interrupt_handler(
    _stack_frame: InterruptStackFrame,
 ) {
    use pc_keyboard::{HandleControl, Keyboard, ScancodeSet1, layouts};
    // use pc_keyboard::DecodedKey;
    use spin::Mutex;
    use x86_64::instructions::port::Port;
-    static KEYBOARD: Lazy<Mutex<Keyboard<layouts::Uk105Key, ScancodeSet1>>> = Lazy::new(|| {
+    static KEYBOARD: Lazy<Mutex<Keyboard<layouts::Uk105Key, ScancodeSet1>>> =
        Lazy::new(|| {
            Mutex::new(Keyboard::new(
                ScancodeSet1::new(),
                layouts::Uk105Key,
@@ -116,7 +124,9 @@ extern "x86-interrupt" fn keyboard_interrupt_handler(_stack_frame: InterruptStac
    }
 }
-extern "x86-interrupt" fn timer_interrupt_handler(_stack_frame: InterruptStackFrame) {
+extern "x86-interrupt" fn timer_interrupt_handler(
    _stack_frame: InterruptStackFrame,
 ) {
    unsafe {
        PICS.lock()
            .notify_end_of_interrupt(InterruptIndex::Timer.as_u8());
@@ -137,7 +147,8 @@ extern "x86-interrupt" fn page_fault_handler(
        let frame = f.allocate_frame().unwrap();
        let flags = PageTableFlags::PRESENT | PageTableFlags::WRITABLE;
-        let page: Page<Size4KiB> = Page::containing_address(Cr2::read().unwrap());
+        let page: Page<Size4KiB> =
            Page::containing_address(Cr2::read().unwrap());
        unsafe {
            let mut mapper = OFFSET_PAGE_TABLE.get().unwrap().lock();
@@ -1,19 +1,27 @@
 use crate::arch::x86_64::memory::{HEAP_SIZE, HEAP_VIRTUAL_SPACE};
 use core::alloc::{GlobalAlloc, Layout};
 use core::ptr;
 use spin::{Mutex, MutexGuard};
 use x86_64::structures::paging::{Size4KiB, mapper::MapToError};
 use crate::arch::x86_64::memory::{HEAP_SIZE, HEAP_VIRTUAL_SPACE};
-/// We are currently using a linked list heap allocator which uses our underlying page allocator.
+/// We are currently using a linked list heap allocator which uses our
 /// underlying page allocator.
 #[global_allocator]
-/// This is now Rust's global allocator, so we can use stuff requiring heap allocations.
+/// This is now Rust's global allocator, so we can use stuff requiring heap
-static ALLOCATOR: Locked<FoundryAllocator> = Locked::new(FoundryAllocator::new());
+/// allocations.
-
+static ALLOCATOR: Locked<FoundryAllocator> =
    Locked::new(FoundryAllocator::new());
 /// Sets up the heap using the backing page frame allocator.
 ///
 /// # Safety
 ///
 /// We do not check whether the given heap start address and size are actually
 /// valid.
 pub unsafe fn init_heap() -> Result<(), MapToError<Size4KiB>> {
    unsafe {
-        // code to allocate frames is now done in the page fault interrupt handler!
+        // The code to allocate frames is now done in the page fault interrupt
        // handler!
        ALLOCATOR.lock().init(HEAP_VIRTUAL_SPACE, HEAP_SIZE);
        Ok(())
    }
@@ -60,11 +68,13 @@ impl FoundryAllocator {
            fallback: Locked::new(FoundryFallbackAllocator::new()),
        }
    }
-    /// Initializes the fallback allocator with the given heap start address and size.
+    /// Initializes the fallback allocator with the given heap start address and
    /// size.
    ///
    /// # Safety
    ///
-    /// This function is unsafe because it does not check whether the given heap start address and size are valid.
+    /// This function is unsafe because it does not check whether the given heap
    /// start address and size are valid.
    pub unsafe fn init(&mut self, heap_start: usize, heap_size: usize) {
        unsafe {
            self.fallback.lock().init(heap_start, heap_size);
@@ -97,7 +107,9 @@ unsafe impl GlobalAlloc for Locked<FoundryAllocator> {
                        let block_size = BLOCK_SIZES[index];
                        // only works if all block sizes are a power of 2
                        let block_align = block_size;
-                        let layout = Layout::from_size_align(block_size, block_align).unwrap();
+                        let layout =
                            Layout::from_size_align(block_size, block_align)
                                .unwrap();
                        unsafe { allocator.fallback_alloc(layout) }
                    }
                }
@@ -183,7 +195,9 @@ impl FoundryFallbackAllocator {
        let mut current = &mut self.head;
        // look for a large enough memory region in linked list
        while let Some(ref mut region) = current.next {
-            if let Ok(alloc_start) = Self::alloc_from_region(region, size, align) {
+            if let Ok(alloc_start) =
                Self::alloc_from_region(region, size, align)
            {
                // region suitable for allocation -> remove node from list
                let next = region.next.take();
                let ret = Some((current.next.take().unwrap(), alloc_start));
@@ -236,7 +250,8 @@ unsafe impl GlobalAlloc for Locked<FoundryFallbackAllocator> {
        // perform layout adjustments
        let (size, align) = FoundryFallbackAllocator::size_align(layout);
-        if let Some((region, alloc_start)) = allocator.find_region(size, align) {
+        if let Some((region, alloc_start)) = allocator.find_region(size, align)
        {
            let alloc_end = alloc_start.checked_add(size).expect("overflow");
            let excess_size = region.end_addr() - alloc_end;
            if excess_size > 0 {
@@ -1,3 +1,3 @@
 pub mod heap_alloc;
 pub mod stack_alloc;
 pub(crate) mod page_alloc;
 pub mod stack_alloc;
@@ -1,10 +1,12 @@
-use x86_64::structures::paging::{FrameAllocator, Mapper, Page, PageTableFlags, PhysFrame, Size4KiB};
+use crate::arch::x86_64::memory::{FRAME_ALLOCATOR, OFFSET_PAGE_TABLE};
 use limine::memory_map::EntryType;
 use limine::response::MemoryMapResponse;
 use spin::Mutex;
 use limine::memory_map::EntryType;
 use x86_64::{PhysAddr, VirtAddr};
 use x86_64::structures::paging::mapper::MapToError;
-use crate::arch::x86_64::memory::{FRAME_ALLOCATOR, OFFSET_PAGE_TABLE};
+use x86_64::structures::paging::{
    FrameAllocator, Mapper, Page, PageTableFlags, PhysFrame, Size4KiB,
 };
 use x86_64::{PhysAddr, VirtAddr};
 pub struct FoundryOSFrameAllocator {
    memory_map: &'static MemoryMapResponse,
@@ -14,14 +16,17 @@ pub struct FoundryOSFrameAllocator {
 impl FoundryOSFrameAllocator {
    /// Creates a new `FoundryOSFrameAllocator` from a memory map.
    ///
-    /// This function takes a reference to a `MemoryMapResponse` and initializes a
+    /// This function takes a reference to a `MemoryMapResponse` and initializes
-    /// `FoundryOSFrameAllocator` with it. The `next` field is set to 0, indicating that
+    /// a `FoundryOSFrameAllocator` with it. The `next` field is set to 0,
-    /// the first frame to be allocated is the first frame in the memory map.
+    /// indicating that the first frame to be allocated is the first frame
    /// in the memory map.
    pub fn init(memory_map: &'static MemoryMapResponse) {
-        FRAME_ALLOCATOR.call_once(|| Mutex::new(Self {
+        FRAME_ALLOCATOR.call_once(|| {
            Mutex::new(Self {
                memory_map,
                next: 0,
-        }));
+            })
        });
    }
    pub fn count_usable_frames(&self) -> u32 {
@@ -29,7 +34,7 @@ impl FoundryOSFrameAllocator {
    }
    pub fn available_memory(&self) -> u64 {
-        ( self.memory_map.entries().len() * 4096 ) as u64 // multiply the number of physical frames by 4096 to get the memory size
+        (self.memory_map.entries().len() * 4096) as u64 // multiply the number of physical frames by 4096 to get the memory size
    }
    /// An iterator over all usable frames in the memory map.
@@ -39,20 +44,35 @@ impl FoundryOSFrameAllocator {
    /// This function is used to allocate frames for the pagemap.
    fn usable_frames(&self) -> impl Iterator<Item = PhysFrame> + use<> {
        let regions = self.memory_map.entries().iter();
-        let usable_regions = regions.filter(|region| region.entry_type == EntryType::USABLE);
+        let usable_regions =
-        let addr_ranges = usable_regions.map(|region| region.base..region.base + region.length);
+            regions.filter(|region| region.entry_type == EntryType::USABLE);
        let addr_ranges = usable_regions
            .map(|region| region.base..region.base + region.length);
        let frame_addresses = addr_ranges.flat_map(|r| r.step_by(4096));
-        frame_addresses.map(|addr| PhysFrame::from_start_address(PhysAddr::new(addr)).unwrap())
+        frame_addresses.map(|addr| {
            PhysFrame::from_start_address(PhysAddr::new(addr)).unwrap()
        })
    }
-
+    #[expect(unused)]
-    
+    fn allocate_page(
-    fn allocate_page(&mut self, start_addr: VirtAddr, flags: PageTableFlags) -> Result<(), MapToError<Size4KiB>> {
+        &mut self,
-        let page = Page::from_start_address(start_addr).map_err(|_| MapToError::FrameAllocationFailed)?;
+        start_addr: VirtAddr,
-        let frame = self.allocate_frame().ok_or(MapToError::FrameAllocationFailed)?;
+        flags: PageTableFlags,
    ) -> Result<(), MapToError<Size4KiB>> {
        let page = Page::from_start_address(start_addr)
            .map_err(|_| MapToError::FrameAllocationFailed)?;
        let frame = self
            .allocate_frame()
            .ok_or(MapToError::FrameAllocationFailed)?;
        let _ = unsafe {
            let mut mapper = OFFSET_PAGE_TABLE.get().unwrap().lock();
-            mapper.map_to(page, frame, flags, &mut *FRAME_ALLOCATOR.get().unwrap().lock())?
+            mapper.map_to(
                page,
                frame,
                flags,
                &mut *FRAME_ALLOCATOR.get().unwrap().lock(),
            )?
        };
        Ok(())
    }
@@ -61,9 +81,9 @@ impl FoundryOSFrameAllocator {
 unsafe impl FrameAllocator<Size4KiB> for FoundryOSFrameAllocator {
    /// Allocates a frame from the list of usable frames.
    ///
-    /// This function returns the next available `PhysFrame` from the memory map,
+    /// This function returns the next available `PhysFrame` from the memory
-    /// if one exists. Once a frame is allocated, the internal counter is incremented
+    /// map, if one exists. Once a frame is allocated, the internal counter
-    /// to point to the next frame for future allocations.
+    /// is incremented to point to the next frame for future allocations.
    ///
    /// # Returns
    ///
@@ -1,11 +1,15 @@
 use x86_64::structures::paging::{mapper, FrameAllocator, Mapper, Page, Size4KiB};
 use x86_64::VirtAddr;
 use crate::arch::x86_64::memory::STACK_VIRTUAL_SPACE;
 use x86_64::VirtAddr;
 use x86_64::structures::paging::{
    FrameAllocator, Mapper, Page, Size4KiB, mapper,
 };
 fn reserve_stack_memory(size_in_pages: u64) -> Page {
    use core::sync::atomic::{AtomicU64, Ordering};
-    static STACK_ALLOC_NEXT: AtomicU64 = AtomicU64::new(STACK_VIRTUAL_SPACE as u64);
+    static STACK_ALLOC_NEXT: AtomicU64 =
-    let start_addr = VirtAddr::new(STACK_ALLOC_NEXT.fetch_add(
+        AtomicU64::new(STACK_VIRTUAL_SPACE as u64);
    let start_addr =
        VirtAddr::new(STACK_ALLOC_NEXT.fetch_add(
            size_in_pages * Page::<Size4KiB>::SIZE,
            Ordering::Relaxed,
        ));
@@ -15,19 +19,21 @@ fn reserve_stack_memory(size_in_pages: u64) -> Page {
 /// Allocates a stack in the virtual address space, mapped to physical pages.
 ///
-/// This function allocates a stack in the virtual address space, mapped to physical pages.
+/// This function allocates a stack in the virtual address space, mapped to
-/// The stack is allocated as a sequence of pages, with the first page allocated as a guard page.
+/// physical pages. The stack is allocated as a sequence of pages, with the
-/// The stack is then mapped to the allocated physical frame.
+/// first page allocated as a guard page. The stack is then mapped to the
 /// allocated physical frame.
 ///
-/// The function takes the size of the stack in pages, a mutable reference to a mapper, and a
+/// The function takes the size of the stack in pages, a mutable reference to a
-/// mutable reference to a frame allocator. It returns a `Result` containing a `StackBounds`
+/// mapper, and a mutable reference to a frame allocator. It returns a `Result`
-/// struct, which contains the start and end virtual addresses of the allocated stack.
+/// containing a `StackBounds` struct, which contains the start and end virtual
 /// addresses of the allocated stack.
 ///
 /// # Safety
 ///
-/// This function is unsafe because it maps physical frames to virtual addresses without any
+/// This function is unsafe because it maps physical frames to virtual addresses
-/// protection. This can lead to bugs if the physical frames are not correctly allocated, or if the
+/// without any protection. This can lead to bugs if the physical frames are not
-/// virtual addresses are not correctly aligned.
+/// correctly allocated, or if the virtual addresses are not correctly aligned.
 ///
 /// # Panics
 ///
@@ -36,7 +42,8 @@ pub unsafe fn alloc_stack(
    size_in_pages: u64,
    mapper: &mut impl Mapper<Size4KiB>,
    frame_allocator: &mut impl FrameAllocator<Size4KiB>,
-) -> Result<StackBounds, mapper::MapToError<Size4KiB>> { unsafe {
+) -> Result<StackBounds, mapper::MapToError<Size4KiB>> {
    unsafe {
        use x86_64::structures::paging::PageTableFlags as Flags;
        let guard_page = reserve_stack_memory(size_in_pages + 1);
@@ -55,8 +62,8 @@ pub unsafe fn alloc_stack(
            start: stack_start.start_address(),
            end: stack_end.start_address(),
        })
-}}
+    }
-
+}
 #[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
 pub struct StackBounds {
@@ -16,7 +16,8 @@ static HIGHER_HALF_DIRECT_MAP_REQUEST: HhdmRequest = HhdmRequest::new();
 #[used]
 #[unsafe(link_section = ".requests")]
-static KERNEL_ADDRESS_REQUEST: KernelAddressRequest = KernelAddressRequest::new();
+static KERNEL_ADDRESS_REQUEST: KernelAddressRequest =
    KernelAddressRequest::new();
 /// ```rs
 /// let virt_addr = phys_addr + offset;
@@ -2,20 +2,19 @@ pub mod allocation;
 pub mod mapping;
 pub mod units;
 use spin::{Mutex, Once};
 use x86_64::{
    registers::control::Cr3, structures::paging::{FrameAllocator, OffsetPageTable, PageTable}
    ,
    VirtAddr,
 };
 use allocation::page_alloc::FoundryOSFrameAllocator;
 use spin::{Mutex, Once};
 use units::MemoryUnits::*;
 use x86_64::{
    VirtAddr,
    registers::control::Cr3,
    structures::paging::{OffsetPageTable, PageTable},
 };
 pub const STACK_VIRTUAL_SPACE: usize = 0x5555_5555_0000; // start address of the memory space where we store allocated stacks
 pub const HEAP_VIRTUAL_SPACE: usize = 0x4444_4444_0000; // start address of heap allocated memory
 pub const HEAP_SIZE: usize = MiB(1).to_bytes();
 pub static FRAME_ALLOCATOR: Once<Mutex<FoundryOSFrameAllocator>> = Once::new();
 pub static OFFSET_PAGE_TABLE: Once<Mutex<OffsetPageTable>> = Once::new();
 /// Returns a mutable reference to the current level 4 page table.
@@ -25,7 +24,9 @@ pub static OFFSET_PAGE_TABLE: Once<Mutex<OffsetPageTable>> = Once::new();
 /// The caller must ensure that the level 4 page table is not modified
 /// simultaneously. The caller must also ensure that the physical memory offset
 /// is correct, to ensure that the correct virtual address is constructed.
-unsafe fn active_l4_table(physical_memory_offset: VirtAddr) -> &'static mut PageTable {
+unsafe fn active_l4_table(
    physical_memory_offset: VirtAddr,
 ) -> &'static mut PageTable {
    let (level_4_frame, _) = Cr3::read();
    let phys_addr = level_4_frame.start_address();
@@ -54,8 +55,8 @@ unsafe fn active_l4_table(physical_memory_offset: VirtAddr) -> &'static mut Page
 pub fn init_page_table(physical_memory_offset: VirtAddr) {
    unsafe {
        let l4_table = active_l4_table(physical_memory_offset);
-        let offset_table = OffsetPageTable::new(l4_table, physical_memory_offset);
+        let offset_table =
            OffsetPageTable::new(l4_table, physical_memory_offset);
        OFFSET_PAGE_TABLE.call_once(|| Mutex::new(offset_table));
    }
 }
@@ -2,7 +2,6 @@
 //!
 //! Written by @zxq5 for the most part with code from
 //! [here](https://github.com/phil-opp/blog_os/).
 //!
 use alloc::boxed::Box;
 use alloc::collections::BTreeMap;
@@ -81,9 +80,9 @@ impl Executor {
                Some(task) => task,
                None => continue, // task no longer exists
            };
-            let waker = waker_cache
+            let waker = waker_cache.entry(task_id).or_insert_with(|| {
-                .entry(task_id)
+                TaskWaker::new_waker(task_id, task_queue.clone())
-                .or_insert_with(|| TaskWaker::new_waker(task_id, task_queue.clone()));
+            });
            let mut context = Context::from_waker(waker);
            match task.poll(&mut context) {
                Poll::Ready(()) => {
@@ -129,7 +128,10 @@ impl TaskWaker {
        self.task_queue.push(self.task_id).expect("task_queue full");
    }
-    fn new_waker(task_id: TaskId, task_queue: Arc<ArrayQueue<TaskId>>) -> Waker {
+    fn new_waker(
        task_id: TaskId,
        task_queue: Arc<ArrayQueue<TaskId>>,
    ) -> Waker {
        Waker::from(Arc::new(Self {
            task_id,
            task_queue,
@@ -1,3 +1,4 @@
 #![expect(unused)]
 pub mod async_io;
 pub mod threading;
 mod taskrunner;
 pub mod threading;
@@ -6,7 +6,7 @@ pub struct Task {
 }
 impl Task {
-    pub fn new() {}
+    // pub const fn new() {}
-    pub fn run() {}
+    pub const fn run() {}
 }
@@ -1,5 +1,5 @@
 use x86_64::VirtAddr;
 use crate::arch::x86_64::memory::allocation::stack_alloc::StackBounds;
 use x86_64::VirtAddr;
 mod switch;
@@ -10,8 +10,6 @@ pub struct Thread {
    stack_bounds: Option<StackBounds>,
 }
 #[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
 pub struct ThreadId(u64);
@@ -12,17 +12,14 @@
 )]
 extern crate alloc;
-use crate::{
+use crate::arch::x86_64::cpu::apic::enable_apic;
-    arch::x86_64::memory::init_page_table,
+use crate::{arch::x86_64::memory::init_page_table, prelude::*};
    prelude::*,
 };
 use arch::x86_64::memory::allocation::heap_alloc::init_heap;
 use arch::x86_64::memory::allocation::page_alloc::FoundryOSFrameAllocator;
 use arch::x86_64::memory::mapping;
 use core::arch::asm;
 use limine::BaseRevision;
 use x86_64::VirtAddr;
 use arch::x86_64::memory::allocation::page_alloc::FoundryOSFrameAllocator;
 use crate::arch::x86_64::cpu::apic::enable_apic;
 pub mod arch;
 pub mod resources;
@@ -33,15 +30,18 @@ pub mod util;
 pub mod prelude {
    pub use crate::std::io::{_print, _print_log, _serial_write};
    pub use crate::{
-        print, print_log, printerr, println, println_log, printlnerr, serial_print, serial_println,
+        print, print_log, printerr, println, println_log, printlnerr,
        serial_print, serial_println,
    };
 }
 /// Sets the base revision to the latest revision supported by the crate.
 /// See specification for further info.
-/// Be sure to mark all limine requests with #[used], otherwise they may be removed by the compiler.
+/// Be sure to mark all limine requests with #[used], otherwise they may be
 /// removed by the compiler.
 #[used]
-// The .requests section allows limine to find the requests faster and more safely.
+// The .requests section allows limine to find the requests faster and more
 // safely.
 #[unsafe(link_section = ".requests")]
 static BASE_REVISION: BaseRevision = BaseRevision::new();
@@ -86,7 +86,8 @@ pub fn boot() -> Result<(), &'static str> {
    println_log!("[Success]");
    print_log!("    Initialising Memory Subsystem... ");
-    let physical_memory_offset = VirtAddr::new(*mapping::PHYSICAL_MEMORY_OFFSET);
+    let physical_memory_offset =
        VirtAddr::new(*mapping::PHYSICAL_MEMORY_OFFSET);
    init_page_table(physical_memory_offset);
    println_log!("[Success]");
@@ -8,7 +8,10 @@ pub mod window;
 pub trait Application {
    type Output;
-    fn run(&mut self, args: Vec<String>) -> impl Future<Output = Result<Self::Output, Error>> + Send;
+    fn run(
        &mut self,
        args: Vec<String>,
    ) -> impl Future<Output = Result<Self::Output, Error>> + Send;
 }
 #[derive(Debug)]
@@ -11,20 +11,31 @@ pub struct Frame<'f> {
 impl<'a> Frame<'a> {
    pub fn new(window: &'a Window) -> Self {
        Self {
-            data: vec![vec![Colour::Black; window.dimensions().x()]; window.dimensions().y()],
+            data: vec![
                vec![Colour::Black; window.dimensions().x()];
                window.dimensions().y()
            ],
            window,
        }
    }
    pub fn render(&self) -> Result<(), RenderError> {
-        let data: Vec<&[Colour]> = self.data.iter().map(|v| v.as_slice()).collect::<Vec<_>>();
+        let data: Vec<&[Colour]> =
            self.data.iter().map(|v| v.as_slice()).collect::<Vec<_>>();
        self.window
            .render(data.as_slice())
            .map_err(|_| RenderError::Generic)
    }
-    pub fn write_pixel(&mut self, x: usize, y: usize, color: Colour) -> Result<(), RenderError> {
+    pub fn write_pixel(
-        if x >= self.window.dimensions().x() || y >= self.window.dimensions().y() {
+        &mut self,
        x: usize,
        y: usize,
        color: Colour,
    ) -> Result<(), RenderError> {
        if x >= self.window.dimensions().x()
            || y >= self.window.dimensions().y()
        {
            return Err(RenderError::Generic);
        }
        self.data[y][x] = color;
@@ -24,7 +24,8 @@ impl Window {
    }
    pub fn render(&self, _data: &[&[Colour]]) -> Result<(), RenderError> {
-        // TODO: error handling!! the kernel should return an error in some cases
+        // TODO: error handling!! the kernel should return an error in some
        // cases
        if let Some(fb) = FRAMEBUFFER_WRITER.lock().as_mut() {
            fb.render_frame(_data);
        }
@@ -46,7 +46,11 @@ impl<'a> Writer<'a> {
                if line & (0x80 >> col) != 0 {
                    for i in 0..scale {
                        for j in 0..scale {
-                            frame.write_pixel(pixel_x + i, pixel_y + j, Colour::White)?;
+                            frame.write_pixel(
                                pixel_x + i,
                                pixel_y + j,
                                Colour::White,
                            )?;
                        }
                    }
                }
@@ -6,16 +6,16 @@ pub use crate::arch::x86_64::drivers::{
 pub mod stdin {
    use crate::arch::x86_64::drivers::{
        ascii::WRITER,
-        keyboard::{
+        keyboard::{KeyStroke, get_keystroke_async, get_keystroke_optional},
            get_keystroke_async, get_keystroke_optional, KeyStroke,
        }
    };
    use alloc::string::String;
-    /// Reads a line of input from standard input asynchronously, returning a `String` containing
+    /// Reads a line of input from standard input asynchronously, returning a
-    /// the input line. Does not include the newline character at the end of the line.
+    /// `String` containing the input line. Does not include the newline
    /// character at the end of the line.
    ///
-    /// If the user presses the abort key (usually Ctrl+C), the returned string will be empty.
+    /// If the user presses the abort key (usually Ctrl+C), the returned string
    /// will be empty.
    ///
    /// This function is currently unimplemented.
    pub async fn read_line() -> String {
@@ -60,8 +60,8 @@ pub mod stdin {
        }
    }
-    /// Reads a character from standard input and blocks the current task until a character is
+    /// Reads a character from standard input and blocks the current task until
-    /// available.
+    /// a character is available.
    ///
    /// # Note
    ///
@@ -70,7 +70,8 @@ pub mod stdin {
        get_keystroke_async().await
    }
-    /// Attempt to read a character from standard input without blocking the current task.
+    /// Attempt to read a character from standard input without blocking the
    /// current task.
    ///
    /// If no character is available, returns `None`.
    ///
@@ -1,6 +1,7 @@
 use crate::serial_print;
 use crate::arch::x86_64::drivers::keyboard::{KeyStroke, get_keystroke_async};
 use crate::resources::font::Font;
 use crate::serial_print;
 use crate::serial_println;
 use crate::std::application::frame::Frame;
 use crate::std::application::render::RenderError;
 use crate::std::application::window::Window;
@@ -9,7 +10,6 @@ use crate::std::ascii::Writer;
 use crate::std::maths::geometry::Vec2;
 use alloc::string::{String, ToString};
 use alloc::vec::Vec;
 use crate::serial_println;
 pub struct Editor {
    cursor_line: usize,
@@ -65,7 +65,10 @@ impl<'a> Editor {
            writer.render_glyph(
                &mut frame,
-                Vec2::new(col * width + Self::PADDING, line * height + Self::PADDING),
+                Vec2::new(
                    col * width + Self::PADDING,
                    line * height + Self::PADDING,
                ),
                ch as u8,
                scale,
            )?;
@@ -157,7 +160,10 @@ impl<'a> Editor {
 impl Application for Editor {
    type Output = ();
-    async fn run(&mut self, _args: Vec<alloc::string::String>) -> Result<Self::Output, Error> {
+    async fn run(
        &mut self,
        _args: Vec<alloc::string::String>,
    ) -> Result<Self::Output, Error> {
        self.window.set_dimensions(Vec2::new(1280, 800));
        self.window.set_position(Vec2::new(0, 0));
        self.window.open();
@@ -167,7 +173,9 @@ impl Application for Editor {
        loop {
            if let Err(_err) = self.render().and_then(|frame| frame.render()) {
                // TODO: Handle error
-                return Err(Error::ApplicationFailed("Rendering failed".to_string()));
+                return Err(Error::ApplicationFailed(
                    "Rendering failed".to_string(),
                ));
            }
            let keystroke = get_keystroke_async().await;
@@ -80,7 +80,12 @@ impl FontBuilder {
    fn revision(data: &[u8]) -> u8 {
        if (data[0] as u16) << 8 | data[1] as u16 == Self::PSF1_MAGIC {
            1
-        } else if (data[0] as u32) << 24 | (data[1] as u32) << 16 | (data[2] as u32) << 8 | data[3] as u32 == Self::PSF2_MAGIC {
+        } else if (data[0] as u32) << 24
            | (data[1] as u32) << 16
            | (data[2] as u32) << 8
            | data[3] as u32
            == Self::PSF2_MAGIC
        {
            2
        } else {
            0
@@ -0,0 +1,4 @@
 wrap_comments = true
 max_width = 80
 comment_width = 80
 format_code_in_doc_comments = true