clang-format set column width to 100 chars

kernel/.clang-format

@@ -22,7 +22,7 @@ AllowShortLoopsOnASingleLine: false
 AllowShortBlocksOnASingleLine: Never
 
 # Line breaking
-ColumnLimit: 80
+ColumnLimit: 100
 BreakBeforeBinaryOperators: None
 BreakBeforeTernaryOperators: true
 BreakStringLiterals: false

kernel/amd64/apic.c

@@ -36,8 +36,7 @@ static struct acpi_madt_ioapic* amd64_ioapic_find (uint8_t irq) {
 
   for (size_t i = 0; i < ioapic_entries; i++) {
     apic = &apics[i];
-    uint32_t version = amd64_ioapic_read (
-        (uintptr_t)hhdm->offset + (uintptr_t)apic->address, 1);
+    uint32_t version = amd64_ioapic_read ((uintptr_t)hhdm->offset + (uintptr_t)apic->address, 1);
     uint32_t max = (version >> 16);
 
     if ((apic->gsi_base <= irq) && ((apic->gsi_base + max) > irq))
@@ -47,8 +46,7 @@ static struct acpi_madt_ioapic* amd64_ioapic_find (uint8_t irq) {
   return apic;
 }
 
-void amd64_ioapic_route_irq (uint8_t vec, uint8_t irq, uint64_t flags,
-                             uint64_t lapic_id) {
+void amd64_ioapic_route_irq (uint8_t vec, uint8_t irq, uint64_t flags, uint64_t lapic_id) {
   struct acpi_madt_ioapic* apic;
   struct acpi_madt_interrupt_source_override* override;
   bool found_override = false;
@@ -67,8 +65,7 @@ void amd64_ioapic_route_irq (uint8_t vec, uint8_t irq, uint64_t flags,
   if (found_override) {
     uint8_t polarity = ((override->flags & 0x03) == 0x03) ? 1 : 0;
     uint8_t mode = (((override->flags >> 2) & 0x03) == 0x03) ? 1 : 0;
-    calc_flags = (lapic_id << 56) | (mode << 15) | (polarity << 14) |
-        (vec & 0xFF) | flags;
+    calc_flags = (lapic_id << 56) | (mode << 15) | (polarity << 14) | (vec & 0xFF) | flags;
   }
 
   apic = amd64_ioapic_find (irq);
@@ -78,11 +75,11 @@ void amd64_ioapic_route_irq (uint8_t vec, uint8_t irq, uint64_t flags,
 
   uint32_t irq_reg = ((irq - apic->gsi_base) * 2) + 0x10;
 
-  amd64_ioapic_write ((uintptr_t)hhdm->offset + (uintptr_t)apic->address,
-                      irq_reg, (uint32_t)calc_flags);
+  amd64_ioapic_write ((uintptr_t)hhdm->offset + (uintptr_t)apic->address, irq_reg,
+                      (uint32_t)calc_flags);
 
-  amd64_ioapic_write ((uintptr_t)hhdm->offset + (uintptr_t)apic->address,
-                      irq_reg + 1, (uint32_t)(calc_flags >> 32));
+  amd64_ioapic_write ((uintptr_t)hhdm->offset + (uintptr_t)apic->address, irq_reg + 1,
+                      (uint32_t)(calc_flags >> 32));
 }
 
 void amd64_ioapic_mask (uint8_t irq) {
@@ -96,10 +93,9 @@ void amd64_ioapic_mask (uint8_t irq) {
 
   uint32_t irq_reg = ((irq - apic->gsi_base) * 2) + 0x10;
 
-  uint32_t value = amd64_ioapic_read (
-      (uintptr_t)hhdm->offset + (uintptr_t)apic->address, irq_reg);
-  amd64_ioapic_write ((uintptr_t)hhdm->offset + (uintptr_t)apic->address,
-                      irq_reg, value | (1 << 16));
+  uint32_t value = amd64_ioapic_read ((uintptr_t)hhdm->offset + (uintptr_t)apic->address, irq_reg);
+  amd64_ioapic_write ((uintptr_t)hhdm->offset + (uintptr_t)apic->address, irq_reg,
+                      value | (1 << 16));
 }
 
 void amd64_ioapic_unmask (uint8_t irq) {
@@ -113,18 +109,16 @@ void amd64_ioapic_unmask (uint8_t irq) {
 
   uint32_t irq_reg = ((irq - apic->gsi_base) * 2) + 0x10;
 
-  uint32_t value = amd64_ioapic_read (
-      (uintptr_t)hhdm->offset + (uintptr_t)apic->address, irq_reg);
-  amd64_ioapic_write ((uintptr_t)hhdm->offset + (uintptr_t)apic->address,
-                      irq_reg, value & ~(1 << 16));
+  uint32_t value = amd64_ioapic_read ((uintptr_t)hhdm->offset + (uintptr_t)apic->address, irq_reg);
+  amd64_ioapic_write ((uintptr_t)hhdm->offset + (uintptr_t)apic->address, irq_reg,
+                      value & ~(1 << 16));
 }
 
 void amd64_ioapic_init (void) {
   struct limine_hhdm_response* hhdm = limine_hhdm_request.response;
 
   struct uacpi_table apic_table;
-  uacpi_status status =
-      uacpi_table_find_by_signature (ACPI_MADT_SIGNATURE, &apic_table);
+  uacpi_status status = uacpi_table_find_by_signature (ACPI_MADT_SIGNATURE, &apic_table);
   if (status != UACPI_STATUS_OK) {
     DEBUG ("Could not find MADT table!\n");
     amd64_spin ();
@@ -134,8 +128,8 @@ void amd64_ioapic_init (void) {
   struct acpi_entry_hdr* current = (struct acpi_entry_hdr*)apic->entries;
 
   for (;;) {
-    if ((uintptr_t)current >= ((uintptr_t)apic->entries + apic->hdr.length -
-                               sizeof (struct acpi_madt)))
+    if ((uintptr_t)current >=
+        ((uintptr_t)apic->entries + apic->hdr.length - sizeof (struct acpi_madt)))
       break;
 
     switch (current->type) {

kernel/amd64/apic.h

@@ -3,8 +3,7 @@
 
 #include <libk/std.h>
 
-void amd64_ioapic_route_irq (uint8_t vec, uint8_t irq, uint64_t flags,
-                             uint64_t lapic_id);
+void amd64_ioapic_route_irq (uint8_t vec, uint8_t irq, uint64_t flags, uint64_t lapic_id);
 void amd64_ioapic_mask (uint8_t irq);
 void amd64_ioapic_unmask (uint8_t irq);
 void amd64_ioapic_init (void);

kernel/amd64/bootmain.c

@@ -18,8 +18,7 @@ void bootmain (void) {
   pmm_init ();
   mm_init ();
 
-  uacpi_setup_early_table_access ((void*)uacpi_memory_buffer,
-                                  sizeof (uacpi_memory_buffer));
+  uacpi_setup_early_table_access ((void*)uacpi_memory_buffer, sizeof (uacpi_memory_buffer));
 
   amd64_ioapic_init ();
   amd64_hpet_init ();

kernel/amd64/hpet.c

@@ -34,13 +34,9 @@ static void amd64_hpet_write (uint32_t reg, uint64_t value) {
     *(volatile uint64_t*)(hpet_vaddr + reg) = value;
 }
 
-static uint64_t amd64_hpet_timestamp (void) {
-  return amd64_hpet_read (HPET_MCVR);
-}
+static uint64_t amd64_hpet_timestamp (void) { return amd64_hpet_read (HPET_MCVR); }
 
-uint64_t amd64_hpet_current_nano (void) {
-  return amd64_hpet_timestamp () * hpet_clock_nano;
-}
+uint64_t amd64_hpet_current_nano (void) { return amd64_hpet_timestamp () * hpet_clock_nano; }
 
 void amd64_hpet_sleep_micro (uint64_t us) {
   uint64_t start = amd64_hpet_timestamp ();
@@ -51,8 +47,7 @@ void amd64_hpet_sleep_micro (uint64_t us) {
 
 void amd64_hpet_init (void) {
   struct uacpi_table hpet_table;
-  uacpi_status status =
-      uacpi_table_find_by_signature (ACPI_HPET_SIGNATURE, &hpet_table);
+  uacpi_status status = uacpi_table_find_by_signature (ACPI_HPET_SIGNATURE, &hpet_table);
   if (status != UACPI_STATUS_OK) {
     DEBUG ("Could not find HPET table!\n");
     amd64_spin ();
@@ -62,8 +57,7 @@ void amd64_hpet_init (void) {
   hpet_paddr = (uintptr_t)hpet->address.address;
 
   struct limine_hhdm_response* hhdm = limine_hhdm_request.response;
-  mm_map_kernel_page (hpet_paddr, (uintptr_t)hhdm->offset + hpet_paddr,
-                      MM_PG_PRESENT | MM_PG_RW);
+  mm_map_kernel_page (hpet_paddr, (uintptr_t)hhdm->offset + hpet_paddr, MM_PG_PRESENT | MM_PG_RW);
 
   hpet_32bits = (amd64_hpet_read (HPET_GCIDR) & (1 << 13)) ? 0 : 1;
 

kernel/amd64/init.c

@@ -40,8 +40,8 @@ struct gdt_extended {
 ALIGNED (16) static volatile uint8_t kernel_stack[KSTACK_SIZE];
 ALIGNED (16) static volatile struct gdt_extended gdt;
 
-static void amd64_gdt_set (volatile struct gdt_entry* ent, uint32_t base,
-                           uint32_t limit, uint8_t acc, uint8_t gran) {
+static void amd64_gdt_set (volatile struct gdt_entry* ent, uint32_t base, uint32_t limit,
+                           uint8_t acc, uint8_t gran) {
   ent->baselow = (base & 0xFFFF);
   ent->basemid = (base >> 16) & 0xFF;
   ent->basehigh = (base >> 24) & 0xFF;
@@ -68,8 +68,7 @@ static void amd64_gdt_init (void) {
   amd64_gdt_set (&gdt.old[2], 0, 0xFFFFF, 0x92, 0xC0);
   amd64_gdt_set (&gdt.old[3], 0, 0xFFFFF, 0xFA, 0xA0);
   amd64_gdt_set (&gdt.old[4], 0, 0xFFFFF, 0xF2, 0xC0);
-  amd64_gdt_set (&gdt.tsslow, (tssbase & 0xFFFFFFFF), tsslimit,
-                 TSS_PRESENT | TSS, 0);
+  amd64_gdt_set (&gdt.tsslow, (tssbase & 0xFFFFFFFF), tsslimit, TSS_PRESENT | TSS, 0);
 
   uint32_t tssbasehigh = (tssbase >> 32);
   gdt.tsshigh.limitlow = (tssbasehigh & 0xFFFF);

kernel/amd64/intr.c

@@ -54,8 +54,8 @@ extern void amd64_spin (void);
 
 /* Remaps and disables old 8259 PIC, since we'll be using APIC. */
 static void amd64_init_pic (void) {
-#define IO_OP(fn, ...)                                                         \
-  fn (__VA_ARGS__);                                                            \
+#define IO_OP(fn, ...)                                                                             \
+  fn (__VA_ARGS__);                                                                                \
   amd64_io_wait ()
 
   IO_OP (amd64_io_outb, PIC1_CMD, (ICW1_INIT | ICW1_ICW4));
@@ -77,8 +77,7 @@ static void amd64_init_pic (void) {
 #undef IO_OP
 }
 
-static void amd64_idt_set (volatile struct idt_entry* ent, uint64_t handler,
-                           uint8_t flags) {
+static void amd64_idt_set (volatile struct idt_entry* ent, uint64_t handler, uint8_t flags) {
   ent->intrlow = (handler & 0xFFFF);
   ent->kernel_cs = 0x08; // GDT_KCODE (init.c)
   ent->ist = 0;
@@ -91,8 +90,8 @@ static void amd64_idt_set (volatile struct idt_entry* ent, uint64_t handler,
 static void amd64_idt_init (void) {
   memset ((void*)idt_entries, 0, sizeof (idt_entries));
 
-#define IDT_ENTRY(n)                                                           \
-  extern void amd64_intr##n (void);                                            \
+#define IDT_ENTRY(n)                                                                               \
+  extern void amd64_intr##n (void);                                                                \
   amd64_idt_set (&idt_entries[(n)], (uint64_t)&amd64_intr##n, 0x8E)
   IDT_ENTRY (0);
   IDT_ENTRY (1);
@@ -167,10 +166,9 @@ static void amd64_intr_exception (struct saved_regs* regs) {
                "err=%016lx rip=%016lx cs =%016lx\n"
                "rfl=%016lx rsp=%016lx ss =%016lx\n"
                "cr2=%016lx cr3=%016lx rbx=%016lx\n",
-               regs->r15, regs->r14, regs->r13, regs->r12, regs->r11, regs->r10,
-               regs->r9, regs->r8, regs->rbp, regs->rdi, regs->rsi, regs->rdx,
-               regs->rcx, regs->rax, regs->trap, regs->error, regs->rip,
-               regs->cs, regs->rflags, regs->rsp, regs->ss, cr2, cr3,
+               regs->r15, regs->r14, regs->r13, regs->r12, regs->r11, regs->r10, regs->r9, regs->r8,
+               regs->rbp, regs->rdi, regs->rsi, regs->rdx, regs->rcx, regs->rax, regs->trap,
+               regs->error, regs->rip, regs->cs, regs->rflags, regs->rsp, regs->ss, cr2, cr3,
                regs->rbx);
 
   amd64_spin ();

kernel/amd64/io.c

@@ -14,10 +14,7 @@ void amd64_io_outl (uint16_t port, uint32_t v) {
 }
 
 void amd64_io_outsw (uint16_t port, const void* addr, int cnt) {
-  __asm__ volatile ("cld; rep outsw"
-                    : "+S"(addr), "+c"(cnt)
-                    : "d"(port)
-                    : "memory", "cc");
+  __asm__ volatile ("cld; rep outsw" : "+S"(addr), "+c"(cnt) : "d"(port) : "memory", "cc");
 }
 
 uint8_t amd64_io_inb (uint16_t port) {
@@ -39,10 +36,7 @@ uint32_t amd64_io_inl (uint16_t port) {
 }
 
 void amd64_io_insw (uint16_t port, void* addr, int cnt) {
-  __asm__ volatile ("cld; rep insw"
-                    : "+D"(addr), "+c"(cnt)
-                    : "d"(port)
-                    : "memory", "cc");
+  __asm__ volatile ("cld; rep insw" : "+D"(addr), "+c"(cnt) : "d"(port) : "memory", "cc");
 }
 
 void amd64_io_wait (void) { amd64_io_outb (0x80, 0); }

kernel/amd64/mm.c

@@ -35,8 +35,7 @@ static struct pg_index amd64_mm_page_index (uint64_t vaddr) {
   return ret;
 }
 
-static uint64_t* amd64_mm_next_table (uint64_t* table, uint64_t entry_idx,
-                                      bool alloc) {
+static uint64_t* amd64_mm_next_table (uint64_t* table, uint64_t entry_idx, bool alloc) {
   uint64_t entry = table[entry_idx];
   uint64_t paddr;
 
@@ -75,8 +74,7 @@ static void amd64_reload_cr3 (void) {
   __asm__ volatile ("movq %%cr3, %0; movq %0, %%cr3" : "=r"(cr3)::"memory");
 }
 
-void mm_map_page (struct pd* pd, uintptr_t paddr, uintptr_t vaddr,
-                  uint32_t flags) {
+void mm_map_page (struct pd* pd, uintptr_t paddr, uintptr_t vaddr, uint32_t flags) {
   struct limine_hhdm_response* hhdm = limine_hhdm_request.response;
   bool do_reload = false;
 

kernel/limine/requests.c

@@ -1,10 +1,10 @@
 #include <aux/compiler.h>
 #include <limine/limine.h>
 
-#define DECL_REQ(small, big)                                                   \
-  SECTION (".limine_requests")                                                 \
-  struct limine_##small##_request limine_##small##_request = {                 \
-      .id = LIMINE_##big##_REQUEST_ID, .revision = 4}
+#define DECL_REQ(small, big)                                                                       \
+  SECTION (".limine_requests")                                                                     \
+  struct limine_##small##_request limine_##small##_request = {.id = LIMINE_##big##_REQUEST_ID,     \
+                                                              .revision = 4}
 
 SECTION (".limine_requests")
 volatile uint64_t limine_base_revision[] = LIMINE_BASE_REVISION (4);

kernel/limine/requests.h

@@ -3,8 +3,7 @@
 
 #include <limine/limine.h>
 
-#define EXTERN_REQ(small)                                                      \
-  extern struct limine_##small##_request limine_##small##_request
+#define EXTERN_REQ(small) extern struct limine_##small##_request limine_##small##_request
 
 EXTERN_REQ (hhdm);
 EXTERN_REQ (memmap);

kernel/mm/liballoc.c

@@ -94,8 +94,7 @@ static inline int getexp (unsigned int size) {
   }
 
 #ifdef DEBUG
-  printf ("getexp returns %i (%i bytes) for %i size\n", shift - 1,
-          (1 << (shift - 1)), size);
+  printf ("getexp returns %i (%i bytes) for %i size\n", shift - 1, (1 << (shift - 1)), size);
 #endif
 
   return shift - 1;
@@ -223,12 +222,10 @@ static inline struct boundary_tag* absorb_right (struct boundary_tag* tag) {
 }
 
 static inline struct boundary_tag* split_tag (struct boundary_tag* tag) {
-  unsigned int remainder =
-      tag->real_size - sizeof (struct boundary_tag) - tag->size;
+  unsigned int remainder = tag->real_size - sizeof (struct boundary_tag) - tag->size;
 
   struct boundary_tag* new_tag =
-      (struct boundary_tag*)((uintptr_t)tag + sizeof (struct boundary_tag) +
-                             tag->size);
+      (struct boundary_tag*)((uintptr_t)tag + sizeof (struct boundary_tag) + tag->size);
 
   new_tag->magic = LIBALLOC_MAGIC;
   new_tag->real_size = remainder;
@@ -285,8 +282,8 @@ static struct boundary_tag* allocate_new_tag (unsigned int size) {
   tag->split_right = NULL;
 
 #ifdef DEBUG
-  printf ("Resource allocated %x of %i pages (%i bytes) for %i size.\n", tag,
-          pages, pages * l_pageSize, size);
+  printf ("Resource allocated %x of %i pages (%i bytes) for %i size.\n", tag, pages,
+          pages * l_pageSize, size);
 
   l_allocated += pages * l_pageSize;
 
@@ -322,11 +319,9 @@ void* malloc (size_t size) {
   tag = l_freePages[index]; // Start at the front of the list.
   while (tag != NULL) {
     // If there's enough space in this tag.
-    if ((tag->real_size - sizeof (struct boundary_tag)) >=
-        (size + sizeof (struct boundary_tag))) {
+    if ((tag->real_size - sizeof (struct boundary_tag)) >= (size + sizeof (struct boundary_tag))) {
 #ifdef DEBUG
-      printf ("Tag search found %i >= %i\n",
-              (tag->real_size - sizeof (struct boundary_tag)),
+      printf ("Tag search found %i >= %i\n", (tag->real_size - sizeof (struct boundary_tag)),
               (size + sizeof (struct boundary_tag)));
 #endif
       break;
@@ -363,17 +358,16 @@ void* malloc (size_t size) {
       tag->real_size - size - sizeof (struct boundary_tag), index, 1 << index);
 #endif
 
-  unsigned int remainder = tag->real_size - size -
-      sizeof (struct boundary_tag) * 2; // Support a new tag + remainder
+  unsigned int remainder =
+      tag->real_size - size - sizeof (struct boundary_tag) * 2; // Support a new tag + remainder
 
-  if (((int)(remainder) >
-       0) /*&& ( (tag->real_size - remainder) >= (1<<MINEXP))*/) {
+  if (((int)(remainder) > 0) /*&& ( (tag->real_size - remainder) >= (1<<MINEXP))*/) {
     int childIndex = getexp (remainder);
 
     if (childIndex >= 0) {
 #ifdef DEBUG
-      printf ("Seems to be splittable: %i >= 2^%i .. %i\n", remainder,
-              childIndex, (1 << childIndex));
+      printf ("Seems to be splittable: %i >= 2^%i .. %i\n", remainder, childIndex,
+              (1 << childIndex));
 #endif
 
       struct boundary_tag* new_tag = split_tag (tag);
@@ -381,8 +375,8 @@ void* malloc (size_t size) {
       (void)new_tag;
 
 #ifdef DEBUG
-      printf ("Old tag has become %i bytes, new tag is now %i bytes (%i exp)\n",
-              tag->real_size, new_tag->real_size, new_tag->index);
+      printf ("Old tag has become %i bytes, new tag is now %i bytes (%i exp)\n", tag->real_size,
+              new_tag->real_size, new_tag->index);
 #endif
     }
   }
@@ -391,8 +385,7 @@ void* malloc (size_t size) {
 
 #ifdef DEBUG
   l_inuse += size;
-  printf ("malloc: %x,  %i, %i\n", ptr, (int)l_inuse / 1024,
-          (int)l_allocated / 1024);
+  printf ("malloc: %x,  %i, %i\n", ptr, (int)l_inuse / 1024, (int)l_allocated / 1024);
   dump_array ();
 #endif
 
@@ -418,17 +411,15 @@ void free (void* ptr) {
 
 #ifdef DEBUG
   l_inuse -= tag->size;
-  printf ("free: %x, %i, %i\n", ptr, (int)l_inuse / 1024,
-          (int)l_allocated / 1024);
+  printf ("free: %x, %i, %i\n", ptr, (int)l_inuse / 1024, (int)l_allocated / 1024);
 #endif
 
   // MELT LEFT...
   while ((tag->split_left != NULL) && (tag->split_left->index >= 0)) {
 #ifdef DEBUG
-    printf (
-        "Melting tag left into available memory. Left was %i, becomes %i (%i)\n",
-        tag->split_left->real_size, tag->split_left->real_size + tag->real_size,
-        tag->split_left->real_size);
+    printf ("Melting tag left into available memory. Left was %i, becomes %i (%i)\n",
+            tag->split_left->real_size, tag->split_left->real_size + tag->real_size,
+            tag->split_left->real_size);
 #endif
     tag = melt_left (tag);
     remove_tag (tag);
@@ -437,10 +428,9 @@ void free (void* ptr) {
   // MELT RIGHT...
   while ((tag->split_right != NULL) && (tag->split_right->index >= 0)) {
 #ifdef DEBUG
-    printf (
-        "Melting tag right into available memory. This was was %i, becomes %i (%i)\n",
-        tag->real_size, tag->split_right->real_size + tag->real_size,
-        tag->split_right->real_size);
+    printf ("Melting tag right into available memory. This was was %i, becomes %i (%i)\n",
+            tag->real_size, tag->split_right->real_size + tag->real_size,
+            tag->split_right->real_size);
 #endif
     tag = absorb_right (tag);
   }
@@ -481,9 +471,8 @@ void free (void* ptr) {
   insert_tag (tag, index);
 
 #ifdef DEBUG
-  printf (
-      "Returning tag with %i bytes (requested %i bytes), which has exponent: %i\n",
-      tag->real_size, tag->size, index);
+  printf ("Returning tag with %i bytes (requested %i bytes), which has exponent: %i\n",
+          tag->real_size, tag->size, index);
   dump_array ();
 #endif
 

kernel/mm/pmm.c

@@ -31,8 +31,8 @@ void pmm_init (void) {
                                           "framebuffer",
                                           "acpi tables"};
 
-    DEBUG ("memmap entry: %-25s %p (%zu bytes)\n", entry_strings[entry->type],
-           entry->base, entry->length);
+    DEBUG ("memmap entry: %-25s %p (%zu bytes)\n", entry_strings[entry->type], entry->base,
+           entry->length);
 
     if (entry->type == LIMINE_MEMMAP_USABLE && region < PMM_REGIONS_MAX) {
       struct pmm_region* pmm_region = &pmm.regions[region];
@@ -87,8 +87,7 @@ void pmm_init (void) {
  * Find free space for a block range. For every bit of the bitmap, we test nblks bits forward.
  * bm_test_region helps us out, because it automatically does range checks. See comments there.
  */
-static size_t pmm_find_free_space (struct pmm_region* pmm_region,
-                                   size_t nblks) {
+static size_t pmm_find_free_space (struct pmm_region* pmm_region, size_t nblks) {
   for (size_t bit = 0; bit < pmm_region->bm.nbits; bit++) {
     if (bm_test_region (&pmm_region->bm, bit, nblks)) {
       continue;
@@ -140,8 +139,7 @@ void pmm_free (physaddr_t p_addr, size_t nblks) {
       continue;
 
     /* If aligned_p_addr is within the range if this region, it belongs to it. */
-    if (aligned_p_addr >= pmm_region->membase &&
-        aligned_p_addr < pmm_region->size) {
+    if (aligned_p_addr >= pmm_region->membase && aligned_p_addr < pmm_region->size) {
       physaddr_t addr = aligned_p_addr - pmm_region->membase;
 
       size_t bit = div_align_up (addr, PAGE_SIZE);

kernel/sync/spin_lock.c

@@ -7,6 +7,4 @@ void spin_lock (spin_lock_t* sl) {
     spin_lock_relax ();
 }
 
-void spin_unlock (spin_lock_t* sl) {
-  atomic_flag_clear_explicit (sl, memory_order_release);
-}
+void spin_unlock (spin_lock_t* sl) { atomic_flag_clear_explicit (sl, memory_order_release); }

kernel/sys/debug.h

@@ -3,9 +3,9 @@
 
 void debugprintf (const char* fmt, ...);
 
-#define DEBUG(fmt, ...)                                                        \
-  do {                                                                         \
-    debugprintf ("%s: " fmt, __func__, ##__VA_ARGS__);                         \
+#define DEBUG(fmt, ...)                                                                            \
+  do {                                                                                             \
+    debugprintf ("%s: " fmt, __func__, ##__VA_ARGS__);                                             \
   } while (0)
 
 #endif // _KERNEL_SYS_DEBUG_H

kernel/sys/mm.h

@@ -12,8 +12,7 @@
 #define MM_PG_USER    (1 << 2)
 #define MM_PD_LOCK    (1 << 31)
 
-void mm_map_page (struct pd* pd, uintptr_t paddr, uintptr_t vaddr,
-                  uint32_t flags);
+void mm_map_page (struct pd* pd, uintptr_t paddr, uintptr_t vaddr, uint32_t flags);
 void mm_map_kernel_page (uintptr_t paddr, uintptr_t vaddr, uint32_t flags);
 void mm_unmap_page (struct pd* pd, uintptr_t vaddr, uint32_t flags);
 void mm_unmap_kernel_page (uintptr_t vaddr, uint32_t flags);

kernel/uACPI/platform_mop3.c

@@ -11,8 +11,7 @@ uacpi_status uacpi_kernel_get_rsdp (uacpi_phys_addr* out_rsdp_address) {
   struct limine_hhdm_response* hhdm = limine_hhdm_request.response;
   struct limine_rsdp_response* rsdp = limine_rsdp_request.response;
 
-  *out_rsdp_address =
-      (uacpi_phys_addr)((uintptr_t)rsdp->address - (uintptr_t)hhdm->offset);
+  *out_rsdp_address = (uacpi_phys_addr)((uintptr_t)rsdp->address - (uintptr_t)hhdm->offset);
 
   return UACPI_STATUS_OK;
 }