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fix: linter

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This commit is contained in:
Alexander Neuhäuser
2026-03-15 13:48:01 +01:00
parent dfb4d094a3
commit bc9091f942
7 changed files with 110 additions and 115 deletions
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119
src/aarch64/mmu.rs
View File

@@ -1,4 +1,4 @@
use core::{panic, u64::MAX};
use core::panic;
use nova_error::NovaError;
@@ -41,7 +41,7 @@ pub const LEVEL2_BLOCK_SIZE: usize = TABLE_ENTRY_COUNT * GRANULARITY;
const L2_BLOCK_BITMAP_WORDS: usize = LEVEL2_BLOCK_SIZE / (64 * GRANULARITY);
const MAX_PAGE_COUNT: usize = 1 * 1024 * 1024 * 1024 / GRANULARITY;
const MAX_PAGE_COUNT: usize = 1024 * 1024 * 1024 / GRANULARITY;
#[repr(align(4096))]
pub struct PageTable([u64; TABLE_ENTRY_COUNT]);
@@ -56,7 +56,7 @@ pub fn allocate_memory(
mut size: usize,
additional_flags: u64,
) -> Result<(), NovaError> {
if virtual_address % GRANULARITY != 0 {
if !virtual_address.is_multiple_of(GRANULARITY) {
return Err(NovaError::Misalignment);
}
@@ -65,7 +65,7 @@ pub fn allocate_memory(
let level2_blocks = size / LEVEL2_BLOCK_SIZE;
size %= LEVEL2_BLOCK_SIZE;
let level3_pages = size / GRANULARITY;
if size % GRANULARITY != 0 {
if !size.is_multiple_of(GRANULARITY) {
return Err(NovaError::InvalidGranularity);
}
@@ -74,23 +74,19 @@ pub fn allocate_memory(
}
for _ in 0..level2_blocks {
unsafe {
alloc_block_l2(
virtual_address,
&mut TRANSLATIONTABLE_TTBR0,
core::ptr::addr_of_mut!(TRANSLATIONTABLE_TTBR0),
additional_flags,
)?;
}
virtual_address += LEVEL2_BLOCK_SIZE;
}
for _ in 0..level3_pages {
unsafe {
alloc_page(
virtual_address,
&mut TRANSLATIONTABLE_TTBR0,
core::ptr::addr_of_mut!(TRANSLATIONTABLE_TTBR0),
additional_flags,
)?;
}
virtual_address += GRANULARITY;
}
@@ -98,7 +94,7 @@ pub fn allocate_memory(
}
/// Allocate a memory block of `size` starting at `virtual_address`,
/// with explicit `physical_address``.
/// with explicit physical_address.
///
/// Note: This can be used when mapping predefined regions.
pub fn allocate_memory_explicit(
@@ -107,7 +103,7 @@ pub fn allocate_memory_explicit(
mut physical_address: usize,
additional_flags: u64,
) -> Result<(), NovaError> {
if virtual_address % GRANULARITY != 0 {
if !virtual_address.is_multiple_of(GRANULARITY) {
return Err(NovaError::Misalignment);
}
@@ -116,7 +112,7 @@ pub fn allocate_memory_explicit(
let mut level2_blocks = size / LEVEL2_BLOCK_SIZE;
size %= LEVEL2_BLOCK_SIZE;
let mut level3_pages = size / GRANULARITY;
if size % GRANULARITY != 0 {
if !size.is_multiple_of(GRANULARITY) {
return Err(NovaError::InvalidGranularity);
}
@@ -135,14 +131,12 @@ pub fn allocate_memory_explicit(
level3_pages -= l3_diff;
for _ in 0..l3_diff {
unsafe {
alloc_page_explicit(
virtual_address,
physical_address,
&mut TRANSLATIONTABLE_TTBR0,
core::ptr::addr_of_mut!(TRANSLATIONTABLE_TTBR0),
additional_flags,
)?;
}
virtual_address += GRANULARITY;
physical_address += GRANULARITY;
@@ -150,26 +144,22 @@ pub fn allocate_memory_explicit(
}
for _ in 0..level2_blocks {
unsafe {
alloc_block_l2_explicit(
virtual_address,
physical_address,
&mut TRANSLATIONTABLE_TTBR0,
core::ptr::addr_of_mut!(TRANSLATIONTABLE_TTBR0),
additional_flags,
)?;
}
virtual_address += LEVEL2_BLOCK_SIZE;
physical_address += LEVEL2_BLOCK_SIZE;
}
for _ in 0..level3_pages {
unsafe {
alloc_page_explicit(
virtual_address,
physical_address,
&mut TRANSLATIONTABLE_TTBR0,
core::ptr::addr_of_mut!(TRANSLATIONTABLE_TTBR0),
additional_flags,
)?;
}
virtual_address += GRANULARITY;
physical_address += GRANULARITY;
}
@@ -180,7 +170,7 @@ pub fn allocate_memory_explicit(
/// Allocate a singe page.
pub fn alloc_page(
virtual_address: usize,
base_table: &mut PageTable,
base_table: *mut PageTable,
additional_flags: u64,
) -> Result<(), NovaError> {
map_page(
@@ -195,7 +185,7 @@ pub fn alloc_page(
pub fn alloc_page_explicit(
virtual_address: usize,
physical_address: usize,
base_table: &mut PageTable,
base_table: *mut PageTable,
additional_flags: u64,
) -> Result<(), NovaError> {
reserve_page_explicit(physical_address)?;
@@ -210,14 +200,15 @@ pub fn alloc_page_explicit(
fn map_page(
virtual_address: usize,
physical_address: usize,
base_table: &mut PageTable,
base_table_ptr: *mut PageTable,
additional_flags: u64,
) -> Result<(), NovaError> {
let (l1_off, l2_off, l3_off) = virtual_address_to_table_offset(virtual_address);
let offsets = [l1_off, l2_off];
let table = navigate_table(base_table, &offsets)?;
let table_ptr = navigate_table(base_table_ptr, &offsets)?;
let table = unsafe { &mut *table_ptr };
if table.0[l3_off] & 0b11 > 0 {
return Err(NovaError::Paging);
@@ -228,43 +219,51 @@ fn map_page(
Ok(())
}
/// Allocate a level 2 block.
// Allocate a level 2 block.
pub fn alloc_block_l2(
virtual_addr: usize,
base_table: &mut PageTable,
base_table_ptr: *mut PageTable,
additional_flags: u64,
) -> Result<(), NovaError> {
map_l2_block(virtual_addr, reserve_block(), base_table, additional_flags)
map_l2_block(
virtual_addr,
reserve_block(),
base_table_ptr,
additional_flags,
)
}
/// Allocate a level 2 block, at a explicit `physical_address`.
// Allocate a level 2 block, at a explicit `physical_address`.
pub fn alloc_block_l2_explicit(
virtual_addr: usize,
physical_address: usize,
base_table: &mut PageTable,
base_table_ptr: *mut PageTable,
additional_flags: u64,
) -> Result<(), NovaError> {
if physical_address % LEVEL2_BLOCK_SIZE != 0 {
if !physical_address.is_multiple_of(LEVEL2_BLOCK_SIZE) {
return Err(NovaError::Misalignment);
}
reserve_block_explicit(physical_address)?;
map_l2_block(virtual_addr, physical_address, base_table, additional_flags)
map_l2_block(
virtual_addr,
physical_address,
base_table_ptr,
additional_flags,
)
}
/// Map a `virtual_address` to a `physical_address`, **WITHOUT** reserving the physical addresses.
///
/// # NOTE
/// Use [`alloc_block_l2_explicit`] instead, **OR** reserve the memory with [`reserve_block_explicit`]
pub fn map_l2_block(
virtual_address: usize,
virtual_addr: usize,
physical_address: usize,
base_table: &mut PageTable,
base_table_ptr: *mut PageTable,
additional_flags: u64,
) -> Result<(), NovaError> {
let (l1_off, l2_off, _) = virtual_address_to_table_offset(virtual_address);
let (l1_off, l2_off, _) = virtual_address_to_table_offset(virtual_addr);
let offsets = [l1_off];
let table = navigate_table(base_table, &offsets)?;
let table_ptr = navigate_table(base_table_ptr, &offsets)?;
let table = unsafe { &mut *table_ptr };
// Verify virtual address is available.
if table.0[l2_off] & 0b11 != 0 {
@@ -278,7 +277,6 @@ pub fn map_l2_block(
Ok(())
}
/// Reserve a physical address range.
pub fn reserve_range_explicit(
start_physical_address: usize,
end_physical_address: usize,
@@ -290,7 +288,7 @@ pub fn reserve_range_explicit(
size %= LEVEL2_BLOCK_SIZE;
let l3_pages = size / GRANULARITY;
if size % GRANULARITY != 0 {
if !size.is_multiple_of(GRANULARITY) {
return Err(NovaError::Misalignment);
}
@@ -337,7 +335,7 @@ fn reserve_page_explicit(physical_address: usize) -> Result<(), NovaError> {
fn reserve_block() -> usize {
if let Some(start) = find_contiguous_free_bitmap_words(L2_BLOCK_BITMAP_WORDS) {
for j in 0..L2_BLOCK_BITMAP_WORDS {
unsafe { PAGING_BITMAP[start + j] = MAX };
unsafe { PAGING_BITMAP[start + j] = u64::MAX };
}
return start * 64 * GRANULARITY;
}
@@ -345,8 +343,7 @@ fn reserve_block() -> usize {
panic!("Out of Memory!");
}
/// Reserve a level 2 block physical address range.
pub fn reserve_block_explicit(physical_address: usize) -> Result<(), NovaError> {
fn reserve_block_explicit(physical_address: usize) -> Result<(), NovaError> {
let page = physical_address / GRANULARITY;
for i in 0..L2_BLOCK_BITMAP_WORDS {
unsafe {
@@ -357,7 +354,7 @@ pub fn reserve_block_explicit(physical_address: usize) -> Result<(), NovaError>
}
for i in 0..L2_BLOCK_BITMAP_WORDS {
unsafe {
PAGING_BITMAP[(page / 64) + i] = MAX;
PAGING_BITMAP[(page / 64) + i] = u64::MAX;
};
}
Ok(())
@@ -380,7 +377,7 @@ fn create_page_descriptor_entry(physical_address: usize, additional_flags: u64)
}
fn create_table_descriptor_entry(addr: usize) -> u64 {
0 | (addr as u64 & 0x0000_FFFF_FFFF_F000) | TABLE
(addr as u64 & 0x0000_FFFF_FFFF_F000) | TABLE
}
fn virtual_address_to_table_offset(virtual_addr: usize) -> (usize, usize, usize) {
@@ -392,24 +389,25 @@ fn virtual_address_to_table_offset(virtual_addr: usize) -> (usize, usize, usize)
}
/// Debugging function to navigate the translation tables.
#[allow(unused_variables)]
pub fn sim_l3_access(addr: usize) {
unsafe {
let entry1 = TRANSLATIONTABLE_TTBR0.0[addr / LEVEL1_BLOCK_SIZE];
let table2 = &mut *(entry_phys(entry1) as *mut PageTable);
let entry2 = table2.0[(addr % LEVEL1_BLOCK_SIZE) / LEVEL2_BLOCK_SIZE];
let table3 = &mut *(entry_phys(entry2) as *mut PageTable);
let entry3 = table3.0[(addr % LEVEL2_BLOCK_SIZE) / GRANULARITY];
let _entry3 = table3.0[(addr % LEVEL2_BLOCK_SIZE) / GRANULARITY];
}
}
/// Navigate the table tree, by following given offsets. This function
/// allocates new tables if required.
fn navigate_table<'a>(
initial_table: &'a mut PageTable,
offsets: &'a [usize],
) -> Result<&'a mut PageTable, NovaError> {
let root_table_ptr = initial_table as *mut PageTable;
let mut table = initial_table;
fn navigate_table(
initial_table_ptr: *mut PageTable,
offsets: &[usize],
) -> Result<*mut PageTable, NovaError> {
let root_table_ptr = initial_table_ptr;
let mut table = initial_table_ptr;
for offset in offsets {
table = next_table(table, *offset, root_table_ptr)?;
}
@@ -420,10 +418,11 @@ fn navigate_table<'a>(
///
/// If table doesn't exit a page will be allocated for it.
fn next_table(
table: &mut PageTable,
table_ptr: *mut PageTable,
offset: usize,
root_table_ptr: *mut PageTable,
) -> Result<&mut PageTable, NovaError> {
) -> Result<*mut PageTable, NovaError> {
let table = unsafe { &mut *table_ptr };
match table.0[offset] & 0b11 {
0 => {
let new_table_addr = reserve_page();
@@ -437,10 +436,10 @@ fn next_table(
NORMAL_MEM | WRITABLE | PXN | UXN,
)?;
Ok(unsafe { &mut *(entry_phys(table.0[offset]) as *mut PageTable) })
Ok(entry_phys(table.0[offset]) as *mut PageTable)
}
1 => return Err(NovaError::Paging),
3 => Ok(unsafe { &mut *(entry_phys(table.0[offset]) as *mut PageTable) }),
1 => Err(NovaError::Paging),
3 => Ok(entry_phys(table.0[offset]) as *mut PageTable),
_ => unreachable!(),
}
}

8
src/configuration.rs
View File

@@ -59,7 +59,7 @@ pub mod mmu {
let _ = map_l2_block(
addr,
addr,
unsafe { &mut TRANSLATIONTABLE_TTBR0 },
core::ptr::addr_of_mut!(TRANSLATIONTABLE_TTBR0),
EL0_ACCESSIBLE | READ_ONLY | NORMAL_MEM,
);
}
@@ -68,7 +68,7 @@ pub mod mmu {
let _ = map_l2_block(
addr,
addr,
unsafe { &mut TRANSLATIONTABLE_TTBR0 },
core::ptr::addr_of_mut!(TRANSLATIONTABLE_TTBR0),
WRITABLE | UXN | NORMAL_MEM,
);
}
@@ -77,7 +77,7 @@ pub mod mmu {
let _ = map_l2_block(
addr,
addr,
unsafe { &mut TRANSLATIONTABLE_TTBR0 },
core::ptr::addr_of_mut!(TRANSLATIONTABLE_TTBR0),
EL0_ACCESSIBLE | WRITABLE | PXN | NORMAL_MEM,
);
}
@@ -86,7 +86,7 @@ pub mod mmu {
let _ = alloc_block_l2_explicit(
addr,
addr,
unsafe { &mut TRANSLATIONTABLE_TTBR0 },
core::ptr::addr_of_mut!(TRANSLATIONTABLE_TTBR0),
EL0_ACCESSIBLE | WRITABLE | UXN | PXN | DEVICE_MEM,
);
}

4
src/interrupt_handlers.rs
View File

@@ -82,7 +82,7 @@ unsafe extern "C" fn rust_irq_handler() {
println!("Return register address: {:#x}", read_esr_el1());
}
if let Some(handler_vec) = unsafe { INTERRUPT_HANDLERS.as_ref() } {
if let Some(handler_vec) = unsafe { &*core::ptr::addr_of_mut!(INTERRUPT_HANDLERS) } {
for handler in handler_vec {
if (pending_irqs & (1 << (handler.source.clone() as u32))) != 0 {
(handler.function)();
@@ -222,7 +222,7 @@ pub fn initialize_interrupt_handler() {
}
pub fn register_interrupt_handler(source: IRQSource, function: fn()) {
if let Some(handler_vec) = unsafe { INTERRUPT_HANDLERS.as_mut() } {
if let Some(handler_vec) = unsafe { &mut *core::ptr::addr_of_mut!(INTERRUPT_HANDLERS) } {
handler_vec.push(InterruptHandlers { source, function });
}
}

4
src/logger.rs
View File

@@ -31,13 +31,11 @@ macro_rules! log {
}
pub fn log(args: fmt::Arguments) {
unsafe {
if let Some(logger) = LOGGER.as_mut() {
if let Some(logger) = unsafe { &mut *core::ptr::addr_of_mut!(LOGGER) } {
logger.write_str("\n").unwrap();
logger.write_fmt(args).unwrap();
logger.flush();
}
}
}
pub fn set_logger(logger: Box<dyn Logger>) {

1
src/main.rs
View File

@@ -1,6 +1,5 @@
#![no_main]
#![no_std]
#![feature(asm_experimental_arch)]
#![allow(static_mut_refs)]
#![allow(clippy::missing_safety_doc)]
use core::{

1
src/pi3/power_management.rs
View File

@@ -23,5 +23,6 @@ pub fn reboot_system() {
PM_PASSWORD | (pm_rstc_val & PM_RSTC_WRCFG_CLR) | PM_RSTC_WRCFG_FULL_RESET,
);
}
#[allow(clippy::empty_loop)]
loop {}
}

8
workspace/heap/src/tests.rs
View File

@@ -100,7 +100,7 @@ fn test_merging_free_sections() {
);
let root_header = heap.start_address;
let root_header_start_size = unsafe { (*root_header).size };
let _root_header_start_size = unsafe { (*root_header).size };
let malloc1 = heap.malloc(MIN_BLOCK_SIZE).unwrap();
let malloc_header_before = unsafe { *Heap::get_header_ref_from_data_pointer(malloc1) };
@@ -135,14 +135,13 @@ fn test_first_fit() {
);
let root_header = heap.start_address;
let root_header_start_size = unsafe { (*root_header).size };
let _root_header_start_size = unsafe { (*root_header).size };
let malloc1 = heap.malloc(MIN_BLOCK_SIZE).unwrap();
let malloc2 = heap.malloc(MIN_BLOCK_SIZE).unwrap();
let _malloc2 = heap.malloc(MIN_BLOCK_SIZE).unwrap();
let malloc3 = heap.malloc(MIN_BLOCK_SIZE * 3).unwrap();
let malloc4 = heap.malloc(MIN_BLOCK_SIZE).unwrap();
unsafe {
assert!(heap.free(malloc1).is_ok());
assert!(heap.free(malloc3).is_ok());
let malloc5 = heap.malloc(MIN_BLOCK_SIZE * 2).unwrap();
@@ -161,5 +160,4 @@ fn test_first_fit() {
// Malloc7 takes slot of Malloc1
let malloc7 = heap.malloc(MIN_BLOCK_SIZE).unwrap();
assert_eq!(malloc1, malloc7);
}
}