ladybird/Kernel/Arch/x86_64/Interrupts.cpp
kleines Filmröllchen 398d271a46 Kernel: Share Processor class (and others) across architectures
About half of the Processor code is common across architectures, so
let's share it with a templated base class. Also, other code that can be
shared in some ways, like FPUState and TrapFrame functions, is adjusted
here. Functions which cannot be shared trivially (without internal
refactoring) are left alone for now.
2023-10-03 16:08:29 -06:00

741 lines
34 KiB
C++

/*
* Copyright (c) 2018-2021, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Format.h>
#include <AK/RefPtr.h>
#include <AK/Types.h>
#include <Kernel/Arch/Interrupts.h>
#include <Kernel/Arch/x86_64/Interrupts/PIC.h>
#include <Kernel/Interrupts/GenericInterruptHandler.h>
#include <Kernel/Interrupts/IRQHandler.h>
#include <Kernel/Interrupts/SharedIRQHandler.h>
#include <Kernel/Interrupts/SpuriousInterruptHandler.h>
#include <Kernel/Interrupts/UnhandledInterruptHandler.h>
#include <Kernel/Library/Panic.h>
#include <Kernel/Sections.h>
#include <Kernel/Security/Random.h>
#include <Kernel/Tasks/PerformanceManager.h>
#include <Kernel/Tasks/Process.h>
#include <Kernel/Tasks/Scheduler.h>
#include <Kernel/Tasks/Thread.h>
#include <Kernel/Tasks/ThreadTracer.h>
#include <Kernel/Arch/CPU.h>
#include <Kernel/Arch/PageFault.h>
#include <Kernel/Arch/Processor.h>
#include <Kernel/Arch/RegisterState.h>
#include <Kernel/Arch/SafeMem.h>
#include <Kernel/Arch/TrapFrame.h>
#include <Kernel/Arch/x86_64/ISRStubs.h>
extern FlatPtr start_of_unmap_after_init;
extern FlatPtr end_of_unmap_after_init;
extern FlatPtr start_of_ro_after_init;
extern FlatPtr end_of_ro_after_init;
extern FlatPtr start_of_kernel_ksyms;
extern FlatPtr end_of_kernel_ksyms;
namespace Kernel {
READONLY_AFTER_INIT static DescriptorTablePointer s_idtr;
READONLY_AFTER_INIT static IDTEntry s_idt[256];
// This spinlock is used to reserve IRQs that can be later used by interrupt mechanism such as MSIx
static Spinlock<LockRank::None> s_interrupt_handler_lock {};
static GenericInterruptHandler* s_interrupt_handler[GENERIC_INTERRUPT_HANDLERS_COUNT];
static GenericInterruptHandler* s_disabled_interrupt_handler[2];
static EntropySource s_entropy_source_interrupts { EntropySource::Static::Interrupts };
// clang-format off
#define EH_ENTRY(ec, title) \
extern "C" void title##_asm_entry(); \
extern "C" void title##_handler(TrapFrame*) __attribute__((used)); \
NAKED void title##_asm_entry() { \
asm( \
" pushq %r15\n" \
" pushq %r14\n" \
" pushq %r13\n" \
" pushq %r12\n" \
" pushq %r11\n" \
" pushq %r10\n" \
" pushq %r9\n" \
" pushq %r8\n" \
" pushq %rax\n" \
" pushq %rcx\n" \
" pushq %rdx\n" \
" pushq %rbx\n" \
" pushq %rsp\n" \
" pushq %rbp\n" \
" pushq %rsi\n" \
" pushq %rdi\n" \
" pushq %rsp \n" /* set TrapFrame::regs */ \
" subq $" __STRINGIFY(TRAP_FRAME_SIZE - 8) ", %rsp \n" \
" subq $0x8, %rsp\n" /* align stack */ \
" lea 0x8(%rsp), %rdi \n" \
" cld\n" \
" call enter_trap_no_irq \n" \
" lea 0x8(%rsp), %rdi \n" \
" call " #title "_handler\n" \
" addq $0x8, %rsp\n" /* undo alignment */ \
" jmp common_trap_exit \n" \
); \
}
#define EH_ENTRY_NO_CODE(ec, title) \
extern "C" void title##_handler(TrapFrame*) __attribute__((used)); \
extern "C" void title##_asm_entry(); \
NAKED void title##_asm_entry() { \
asm( \
" pushq $0x0\n" \
" pushq %r15\n" \
" pushq %r14\n" \
" pushq %r13\n" \
" pushq %r12\n" \
" pushq %r11\n" \
" pushq %r10\n" \
" pushq %r9\n" \
" pushq %r8\n" \
" pushq %rax\n" \
" pushq %rcx\n" \
" pushq %rdx\n" \
" pushq %rbx\n" \
" pushq %rsp\n" \
" pushq %rbp\n" \
" pushq %rsi\n" \
" pushq %rdi\n" \
" pushq %rsp \n" /* set TrapFrame::regs */ \
" subq $" __STRINGIFY(TRAP_FRAME_SIZE - 8) ", %rsp \n" \
" movq %rsp, %rdi \n" \
" cld\n" \
" call enter_trap_no_irq \n" \
" movq %rsp, %rdi \n" \
" call " #title "_handler\n" \
" jmp common_trap_exit \n" \
); \
}
// clang-format on
void dump_registers(RegisterState const& regs)
{
u64 rsp;
if (!(regs.cs & 3))
rsp = regs.rsp;
else
rsp = regs.userspace_rsp;
dbgln("Exception code: {:04x} (isr: {:04x})", regs.exception_code, regs.isr_number);
dbgln(" pc={:#04x}:{:p} rflags={:p}", (u16)regs.cs, regs.rip, regs.rflags);
dbgln(" stack={:p}", rsp);
// FIXME: Add fs_base and gs_base here
dbgln(" rax={:p} rbx={:p} rcx={:p} rdx={:p}", regs.rax, regs.rbx, regs.rcx, regs.rdx);
dbgln(" rbp={:p} rsp={:p} rsi={:p} rdi={:p}", regs.rbp, regs.rsp, regs.rsi, regs.rdi);
dbgln(" r8={:p} r9={:p} r10={:p} r11={:p}", regs.r8, regs.r9, regs.r10, regs.r11);
dbgln(" r12={:p} r13={:p} r14={:p} r15={:p}", regs.r12, regs.r13, regs.r14, regs.r15);
dbgln(" cr0={:p} cr2={:p} cr3={:p} cr4={:p}", read_cr0(), read_cr2(), read_cr3(), read_cr4());
}
EH_ENTRY_NO_CODE(6, illegal_instruction);
void illegal_instruction_handler(TrapFrame* trap)
{
clac();
handle_crash(*trap->regs, "Illegal instruction", SIGILL);
}
EH_ENTRY_NO_CODE(0, divide_error);
void divide_error_handler(TrapFrame* trap)
{
clac();
handle_crash(*trap->regs, "Divide error", SIGFPE);
}
EH_ENTRY(13, general_protection_fault);
void general_protection_fault_handler(TrapFrame* trap)
{
clac();
handle_crash(*trap->regs, "General protection fault", SIGSEGV);
}
// 7: FPU not available exception
EH_ENTRY_NO_CODE(7, fpu_exception);
void fpu_exception_handler(TrapFrame*)
{
// Just clear the TS flag. We've already restored the FPU state eagerly.
// FIXME: It would be nice if we didn't have to do this at all.
asm volatile("clts");
}
// 14: Page Fault
EH_ENTRY(14, page_fault);
void page_fault_handler(TrapFrame* trap)
{
clac();
auto fault_address = read_cr2();
auto& regs = *trap->regs;
// NOTE: Once we've extracted the faulting address from CR2, we can re-enable interrupts.
// However, we only do this *if* they were enabled when the page fault occurred.
if (regs.flags() & 0x200) {
sti();
}
if constexpr (PAGE_FAULT_DEBUG) {
u32 fault_page_directory = read_cr3();
dbgln("CPU #{} ring {} {} page fault in PD={:#x}, {}{} {}",
Processor::is_initialized() ? Processor::current_id() : 0,
regs.cs & 3,
regs.exception_code & 1 ? "PV" : "NP",
fault_page_directory,
regs.exception_code & 8 ? "reserved-bit " : "",
regs.exception_code & 2 ? "write" : "read",
VirtualAddress(fault_address));
dump_registers(regs);
}
PageFault fault { regs.exception_code, VirtualAddress { fault_address } };
fault.handle(regs);
}
EH_ENTRY_NO_CODE(1, debug);
void debug_handler(TrapFrame* trap)
{
clac();
auto& regs = *trap->regs;
auto current_thread = Thread::current();
auto& process = current_thread->process();
if ((regs.cs & 3) == 0) {
PANIC("Debug exception in ring 0");
}
constexpr u8 REASON_SINGLESTEP = 14;
auto debug_status = read_dr6();
auto should_trap_mask = (1 << REASON_SINGLESTEP) | 0b1111;
if ((debug_status & should_trap_mask) == 0)
return;
if (auto tracer = process.tracer()) {
tracer->set_regs(regs);
}
current_thread->send_urgent_signal_to_self(SIGTRAP);
write_dr6(debug_status & ~(should_trap_mask));
}
EH_ENTRY_NO_CODE(3, breakpoint);
void breakpoint_handler(TrapFrame* trap)
{
clac();
auto& regs = *trap->regs;
auto current_thread = Thread::current();
auto& process = current_thread->process();
if ((regs.cs & 3) == 0) {
PANIC("Breakpoint trap in ring 0");
}
if (auto tracer = process.tracer()) {
tracer->set_regs(regs);
}
current_thread->send_urgent_signal_to_self(SIGTRAP);
}
#define EH(i, msg) \
static void _exception##i() \
{ \
dbgln("{}", msg); \
PANIC("cr0={:08x} cr2={:08x} cr3={:08x} cr4={:08x}", read_cr0(), read_cr2(), read_cr3(), read_cr4()); \
}
EH(2, "Unknown error")
EH(4, "Overflow")
EH(5, "Bounds check")
EH(8, "Double fault")
EH(9, "Coprocessor segment overrun")
EH(10, "Invalid TSS")
EH(11, "Segment not present")
EH(12, "Stack exception")
EH(15, "Unknown error")
EH(16, "Coprocessor error")
extern "C" void pre_init_finished(void) __attribute__((used));
extern "C" void post_init_finished(void) __attribute__((used));
extern "C" void handle_interrupt(TrapFrame*) __attribute__((used));
extern "C" UNMAP_AFTER_INIT void pre_init_finished(void)
{
VERIFY(g_scheduler_lock.is_locked_by_current_processor());
// Because init_finished() will wait on the other APs, we need
// to release the scheduler lock so that the other APs can also get
// to this point
// The target flags will get restored upon leaving the trap
Scheduler::leave_on_first_switch(Processor::interrupts_state());
}
extern "C" UNMAP_AFTER_INIT void post_init_finished(void)
{
// We need to re-acquire the scheduler lock before a context switch
// transfers control into the idle loop, which needs the lock held
Scheduler::prepare_for_idle_loop();
}
void handle_interrupt(TrapFrame* trap)
{
clac();
auto& regs = *trap->regs;
GenericInterruptHandler* handler = nullptr;
// Note: we declare interrupt service routine offset 0x20 to 0x2f as
// reserved for when the PIC is disabled, so we can still route spurious
// IRQs to a different interrupt handlers at different location.
if (regs.isr_number >= pic_disabled_vector_base && regs.isr_number <= pic_disabled_vector_end) {
u8 irq = (u8)(regs.isr_number - pic_disabled_vector_base);
if (irq == 7) {
handler = s_disabled_interrupt_handler[0];
} else if (irq == 15) {
handler = s_disabled_interrupt_handler[1];
}
} else {
VERIFY(regs.isr_number >= IRQ_VECTOR_BASE && regs.isr_number <= (IRQ_VECTOR_BASE + GENERIC_INTERRUPT_HANDLERS_COUNT));
u8 irq = (u8)(regs.isr_number - IRQ_VECTOR_BASE);
s_entropy_source_interrupts.add_random_event(irq);
handler = s_interrupt_handler[irq];
}
VERIFY(handler);
handler->increment_call_count();
handler->handle_interrupt(regs);
handler->eoi();
}
DescriptorTablePointer const& get_idtr()
{
return s_idtr;
}
static void unimp_trap()
{
PANIC("Unhandled IRQ");
}
GenericInterruptHandler& get_interrupt_handler(u8 interrupt_number)
{
auto*& handler_slot = s_interrupt_handler[interrupt_number];
VERIFY(handler_slot != nullptr);
return *handler_slot;
}
static void revert_to_unused_handler(u8 interrupt_number)
{
auto handler = new UnhandledInterruptHandler(interrupt_number);
handler->register_interrupt_handler();
}
static bool is_unused_handler(GenericInterruptHandler* handler_slot)
{
return (handler_slot->type() == HandlerType::UnhandledInterruptHandler) && !handler_slot->reserved();
}
// Sets the reserved flag on `number_of_irqs` if it finds unused interrupt handler on
// a contiguous range.
ErrorOr<u8> reserve_interrupt_handlers(u8 number_of_irqs)
{
bool found_range = false;
u8 first_irq = 0;
SpinlockLocker locker(s_interrupt_handler_lock);
for (int start_irq = 0; start_irq < GENERIC_INTERRUPT_HANDLERS_COUNT; start_irq++) {
auto*& handler_slot = s_interrupt_handler[start_irq];
VERIFY(handler_slot != nullptr);
if (!is_unused_handler(handler_slot))
continue;
found_range = true;
for (auto off = 1; off < number_of_irqs; off++) {
auto*& handler = s_interrupt_handler[start_irq + off];
VERIFY(handler_slot != nullptr);
if (!is_unused_handler(handler)) {
found_range = false;
break;
}
}
if (found_range == true) {
first_irq = start_irq;
break;
}
}
if (!found_range)
return Error::from_errno(EAGAIN);
for (auto irq = first_irq; irq < number_of_irqs; irq++) {
auto*& handler_slot = s_interrupt_handler[irq];
handler_slot->set_reserved();
}
return first_irq;
}
void register_disabled_interrupt_handler(u8 number, GenericInterruptHandler& handler)
{
if (number == 15) {
s_disabled_interrupt_handler[0] = &handler;
return;
} else if (number == 7) {
s_disabled_interrupt_handler[1] = &handler;
return;
}
VERIFY_NOT_REACHED();
}
void register_generic_interrupt_handler(u8 interrupt_number, GenericInterruptHandler& handler)
{
VERIFY(interrupt_number < GENERIC_INTERRUPT_HANDLERS_COUNT);
auto*& handler_slot = s_interrupt_handler[interrupt_number];
if (handler_slot == nullptr) {
handler_slot = &handler;
return;
}
if (handler_slot->type() == HandlerType::UnhandledInterruptHandler) {
auto* unhandled_handler = static_cast<UnhandledInterruptHandler*>(handler_slot);
unhandled_handler->unregister_interrupt_handler();
delete unhandled_handler;
handler_slot = &handler;
return;
}
if (handler_slot->is_shared_handler()) {
VERIFY(handler_slot->type() == HandlerType::SharedIRQHandler);
static_cast<SharedIRQHandler*>(handler_slot)->register_handler(handler);
return;
}
if (!handler_slot->is_shared_handler()) {
if (handler_slot->type() == HandlerType::SpuriousInterruptHandler) {
static_cast<SpuriousInterruptHandler*>(handler_slot)->register_handler(handler);
return;
}
VERIFY(handler_slot->type() == HandlerType::IRQHandler);
static_cast<IRQHandler*>(handler_slot)->set_shared_with_others(true);
auto& previous_handler = *handler_slot;
handler_slot = nullptr;
SharedIRQHandler::initialize(interrupt_number);
VERIFY(handler_slot);
static_cast<SharedIRQHandler*>(handler_slot)->register_handler(previous_handler);
static_cast<SharedIRQHandler*>(handler_slot)->register_handler(handler);
return;
}
VERIFY_NOT_REACHED();
}
void unregister_generic_interrupt_handler(u8 interrupt_number, GenericInterruptHandler& handler)
{
auto*& handler_slot = s_interrupt_handler[interrupt_number];
VERIFY(handler_slot != nullptr);
if (handler_slot->type() == HandlerType::UnhandledInterruptHandler)
return;
if (handler_slot->is_shared_handler()) {
VERIFY(handler_slot->type() == HandlerType::SharedIRQHandler);
auto* shared_handler = static_cast<SharedIRQHandler*>(handler_slot);
shared_handler->unregister_handler(handler);
if (!shared_handler->sharing_devices_count()) {
handler_slot = nullptr;
revert_to_unused_handler(interrupt_number);
}
return;
}
if (!handler_slot->is_shared_handler()) {
VERIFY(handler_slot->type() == HandlerType::IRQHandler);
static_cast<IRQHandler*>(handler_slot)->set_shared_with_others(false);
handler_slot = nullptr;
revert_to_unused_handler(interrupt_number);
return;
}
VERIFY_NOT_REACHED();
}
UNMAP_AFTER_INIT void register_interrupt_handler(u8 index, void (*handler)())
{
// FIXME: Is the Gate Type really required to be an Interrupt
// FIXME: What's up with that storage segment 0?
s_idt[index] = IDTEntry((FlatPtr)handler, GDT_SELECTOR_CODE0, IDTEntryType::InterruptGate32, 0, 0);
}
UNMAP_AFTER_INIT void register_user_callable_interrupt_handler(u8 index, void (*handler)())
{
// FIXME: Is the Gate Type really required to be a Trap
// FIXME: What's up with that storage segment 0?
s_idt[index] = IDTEntry((FlatPtr)handler, GDT_SELECTOR_CODE0, IDTEntryType::TrapGate32, 0, 3);
}
UNMAP_AFTER_INIT void flush_idt()
{
asm("lidt %0" ::"m"(s_idtr));
}
UNMAP_AFTER_INIT void initialize_interrupts()
{
s_idtr.address = s_idt;
s_idtr.limit = 256 * sizeof(IDTEntry) - 1;
register_interrupt_handler(0x00, divide_error_asm_entry);
register_user_callable_interrupt_handler(0x01, debug_asm_entry);
register_interrupt_handler(0x02, _exception2);
register_user_callable_interrupt_handler(0x03, breakpoint_asm_entry);
register_interrupt_handler(0x04, _exception4);
register_interrupt_handler(0x05, _exception5);
register_interrupt_handler(0x06, illegal_instruction_asm_entry);
register_interrupt_handler(0x07, fpu_exception_asm_entry);
register_interrupt_handler(0x08, _exception8);
register_interrupt_handler(0x09, _exception9);
register_interrupt_handler(0x0a, _exception10);
register_interrupt_handler(0x0b, _exception11);
register_interrupt_handler(0x0c, _exception12);
register_interrupt_handler(0x0d, general_protection_fault_asm_entry);
register_interrupt_handler(0x0e, page_fault_asm_entry);
register_interrupt_handler(0x0f, _exception15);
register_interrupt_handler(0x10, _exception16);
for (u8 i = 0x11; i < 0x20; i++)
register_interrupt_handler(i, unimp_trap);
dbgln("Initializing unhandled interrupt handlers");
register_interrupt_handler(0x20, interrupt_32_asm_entry);
register_interrupt_handler(0x21, interrupt_33_asm_entry);
register_interrupt_handler(0x22, interrupt_34_asm_entry);
register_interrupt_handler(0x23, interrupt_35_asm_entry);
register_interrupt_handler(0x24, interrupt_36_asm_entry);
register_interrupt_handler(0x25, interrupt_37_asm_entry);
register_interrupt_handler(0x26, interrupt_38_asm_entry);
register_interrupt_handler(0x27, interrupt_39_asm_entry);
register_interrupt_handler(0x28, interrupt_40_asm_entry);
register_interrupt_handler(0x29, interrupt_41_asm_entry);
register_interrupt_handler(0x2a, interrupt_42_asm_entry);
register_interrupt_handler(0x2b, interrupt_43_asm_entry);
register_interrupt_handler(0x2c, interrupt_44_asm_entry);
register_interrupt_handler(0x2d, interrupt_45_asm_entry);
register_interrupt_handler(0x2e, interrupt_46_asm_entry);
register_interrupt_handler(0x2f, interrupt_47_asm_entry);
register_interrupt_handler(0x30, interrupt_48_asm_entry);
register_interrupt_handler(0x31, interrupt_49_asm_entry);
register_interrupt_handler(0x32, interrupt_50_asm_entry);
register_interrupt_handler(0x33, interrupt_51_asm_entry);
register_interrupt_handler(0x34, interrupt_52_asm_entry);
register_interrupt_handler(0x35, interrupt_53_asm_entry);
register_interrupt_handler(0x36, interrupt_54_asm_entry);
register_interrupt_handler(0x37, interrupt_55_asm_entry);
register_interrupt_handler(0x38, interrupt_56_asm_entry);
register_interrupt_handler(0x39, interrupt_57_asm_entry);
register_interrupt_handler(0x3a, interrupt_58_asm_entry);
register_interrupt_handler(0x3b, interrupt_59_asm_entry);
register_interrupt_handler(0x3c, interrupt_60_asm_entry);
register_interrupt_handler(0x3d, interrupt_61_asm_entry);
register_interrupt_handler(0x3e, interrupt_62_asm_entry);
register_interrupt_handler(0x3f, interrupt_63_asm_entry);
register_interrupt_handler(0x40, interrupt_64_asm_entry);
register_interrupt_handler(0x41, interrupt_65_asm_entry);
register_interrupt_handler(0x42, interrupt_66_asm_entry);
register_interrupt_handler(0x43, interrupt_67_asm_entry);
register_interrupt_handler(0x44, interrupt_68_asm_entry);
register_interrupt_handler(0x45, interrupt_69_asm_entry);
register_interrupt_handler(0x46, interrupt_70_asm_entry);
register_interrupt_handler(0x47, interrupt_71_asm_entry);
register_interrupt_handler(0x48, interrupt_72_asm_entry);
register_interrupt_handler(0x49, interrupt_73_asm_entry);
register_interrupt_handler(0x4a, interrupt_74_asm_entry);
register_interrupt_handler(0x4b, interrupt_75_asm_entry);
register_interrupt_handler(0x4c, interrupt_76_asm_entry);
register_interrupt_handler(0x4d, interrupt_77_asm_entry);
register_interrupt_handler(0x4e, interrupt_78_asm_entry);
register_interrupt_handler(0x4f, interrupt_79_asm_entry);
register_interrupt_handler(0x50, interrupt_80_asm_entry);
register_interrupt_handler(0x51, interrupt_81_asm_entry);
register_interrupt_handler(0x52, interrupt_82_asm_entry);
register_interrupt_handler(0x53, interrupt_83_asm_entry);
register_interrupt_handler(0x54, interrupt_84_asm_entry);
register_interrupt_handler(0x55, interrupt_85_asm_entry);
register_interrupt_handler(0x56, interrupt_86_asm_entry);
register_interrupt_handler(0x57, interrupt_87_asm_entry);
register_interrupt_handler(0x58, interrupt_88_asm_entry);
register_interrupt_handler(0x59, interrupt_89_asm_entry);
register_interrupt_handler(0x5a, interrupt_90_asm_entry);
register_interrupt_handler(0x5b, interrupt_91_asm_entry);
register_interrupt_handler(0x5c, interrupt_92_asm_entry);
register_interrupt_handler(0x5d, interrupt_93_asm_entry);
register_interrupt_handler(0x5e, interrupt_94_asm_entry);
register_interrupt_handler(0x5f, interrupt_95_asm_entry);
register_interrupt_handler(0x60, interrupt_96_asm_entry);
register_interrupt_handler(0x61, interrupt_97_asm_entry);
register_interrupt_handler(0x62, interrupt_98_asm_entry);
register_interrupt_handler(0x63, interrupt_99_asm_entry);
register_interrupt_handler(0x64, interrupt_100_asm_entry);
register_interrupt_handler(0x65, interrupt_101_asm_entry);
register_interrupt_handler(0x66, interrupt_102_asm_entry);
register_interrupt_handler(0x67, interrupt_103_asm_entry);
register_interrupt_handler(0x68, interrupt_104_asm_entry);
register_interrupt_handler(0x69, interrupt_105_asm_entry);
register_interrupt_handler(0x6a, interrupt_106_asm_entry);
register_interrupt_handler(0x6b, interrupt_107_asm_entry);
register_interrupt_handler(0x6c, interrupt_108_asm_entry);
register_interrupt_handler(0x6d, interrupt_109_asm_entry);
register_interrupt_handler(0x6e, interrupt_110_asm_entry);
register_interrupt_handler(0x6f, interrupt_111_asm_entry);
register_interrupt_handler(0x70, interrupt_112_asm_entry);
register_interrupt_handler(0x71, interrupt_113_asm_entry);
register_interrupt_handler(0x72, interrupt_114_asm_entry);
register_interrupt_handler(0x73, interrupt_115_asm_entry);
register_interrupt_handler(0x74, interrupt_116_asm_entry);
register_interrupt_handler(0x75, interrupt_117_asm_entry);
register_interrupt_handler(0x76, interrupt_118_asm_entry);
register_interrupt_handler(0x77, interrupt_119_asm_entry);
register_interrupt_handler(0x78, interrupt_120_asm_entry);
register_interrupt_handler(0x79, interrupt_121_asm_entry);
register_interrupt_handler(0x7a, interrupt_122_asm_entry);
register_interrupt_handler(0x7b, interrupt_123_asm_entry);
register_interrupt_handler(0x7c, interrupt_124_asm_entry);
register_interrupt_handler(0x7d, interrupt_125_asm_entry);
register_interrupt_handler(0x7e, interrupt_126_asm_entry);
register_interrupt_handler(0x7f, interrupt_127_asm_entry);
register_interrupt_handler(0x80, interrupt_128_asm_entry);
register_interrupt_handler(0x81, interrupt_129_asm_entry);
register_interrupt_handler(0x82, interrupt_130_asm_entry);
register_interrupt_handler(0x83, interrupt_131_asm_entry);
register_interrupt_handler(0x84, interrupt_132_asm_entry);
register_interrupt_handler(0x85, interrupt_133_asm_entry);
register_interrupt_handler(0x86, interrupt_134_asm_entry);
register_interrupt_handler(0x87, interrupt_135_asm_entry);
register_interrupt_handler(0x88, interrupt_136_asm_entry);
register_interrupt_handler(0x89, interrupt_137_asm_entry);
register_interrupt_handler(0x8a, interrupt_138_asm_entry);
register_interrupt_handler(0x8b, interrupt_139_asm_entry);
register_interrupt_handler(0x8c, interrupt_140_asm_entry);
register_interrupt_handler(0x8d, interrupt_141_asm_entry);
register_interrupt_handler(0x8e, interrupt_142_asm_entry);
register_interrupt_handler(0x8f, interrupt_143_asm_entry);
register_interrupt_handler(0x90, interrupt_144_asm_entry);
register_interrupt_handler(0x91, interrupt_145_asm_entry);
register_interrupt_handler(0x92, interrupt_146_asm_entry);
register_interrupt_handler(0x93, interrupt_147_asm_entry);
register_interrupt_handler(0x94, interrupt_148_asm_entry);
register_interrupt_handler(0x95, interrupt_149_asm_entry);
register_interrupt_handler(0x96, interrupt_150_asm_entry);
register_interrupt_handler(0x97, interrupt_151_asm_entry);
register_interrupt_handler(0x98, interrupt_152_asm_entry);
register_interrupt_handler(0x99, interrupt_153_asm_entry);
register_interrupt_handler(0x9a, interrupt_154_asm_entry);
register_interrupt_handler(0x9b, interrupt_155_asm_entry);
register_interrupt_handler(0x9c, interrupt_156_asm_entry);
register_interrupt_handler(0x9d, interrupt_157_asm_entry);
register_interrupt_handler(0x9e, interrupt_158_asm_entry);
register_interrupt_handler(0x9f, interrupt_159_asm_entry);
register_interrupt_handler(0xa0, interrupt_160_asm_entry);
register_interrupt_handler(0xa1, interrupt_161_asm_entry);
register_interrupt_handler(0xa2, interrupt_162_asm_entry);
register_interrupt_handler(0xa3, interrupt_163_asm_entry);
register_interrupt_handler(0xa4, interrupt_164_asm_entry);
register_interrupt_handler(0xa5, interrupt_165_asm_entry);
register_interrupt_handler(0xa6, interrupt_166_asm_entry);
register_interrupt_handler(0xa7, interrupt_167_asm_entry);
register_interrupt_handler(0xa8, interrupt_168_asm_entry);
register_interrupt_handler(0xa9, interrupt_169_asm_entry);
register_interrupt_handler(0xaa, interrupt_170_asm_entry);
register_interrupt_handler(0xab, interrupt_171_asm_entry);
register_interrupt_handler(0xac, interrupt_172_asm_entry);
register_interrupt_handler(0xad, interrupt_173_asm_entry);
register_interrupt_handler(0xae, interrupt_174_asm_entry);
register_interrupt_handler(0xaf, interrupt_175_asm_entry);
register_interrupt_handler(0xb0, interrupt_176_asm_entry);
register_interrupt_handler(0xb1, interrupt_177_asm_entry);
register_interrupt_handler(0xb2, interrupt_178_asm_entry);
register_interrupt_handler(0xb3, interrupt_179_asm_entry);
register_interrupt_handler(0xb4, interrupt_180_asm_entry);
register_interrupt_handler(0xb5, interrupt_181_asm_entry);
register_interrupt_handler(0xb6, interrupt_182_asm_entry);
register_interrupt_handler(0xb7, interrupt_183_asm_entry);
register_interrupt_handler(0xb8, interrupt_184_asm_entry);
register_interrupt_handler(0xb9, interrupt_185_asm_entry);
register_interrupt_handler(0xba, interrupt_186_asm_entry);
register_interrupt_handler(0xbb, interrupt_187_asm_entry);
register_interrupt_handler(0xbc, interrupt_188_asm_entry);
register_interrupt_handler(0xbd, interrupt_189_asm_entry);
register_interrupt_handler(0xbe, interrupt_190_asm_entry);
register_interrupt_handler(0xbf, interrupt_191_asm_entry);
register_interrupt_handler(0xc0, interrupt_192_asm_entry);
register_interrupt_handler(0xc1, interrupt_193_asm_entry);
register_interrupt_handler(0xc2, interrupt_194_asm_entry);
register_interrupt_handler(0xc3, interrupt_195_asm_entry);
register_interrupt_handler(0xc4, interrupt_196_asm_entry);
register_interrupt_handler(0xc5, interrupt_197_asm_entry);
register_interrupt_handler(0xc6, interrupt_198_asm_entry);
register_interrupt_handler(0xc7, interrupt_199_asm_entry);
register_interrupt_handler(0xc8, interrupt_200_asm_entry);
register_interrupt_handler(0xc9, interrupt_201_asm_entry);
register_interrupt_handler(0xca, interrupt_202_asm_entry);
register_interrupt_handler(0xcb, interrupt_203_asm_entry);
register_interrupt_handler(0xcc, interrupt_204_asm_entry);
register_interrupt_handler(0xcd, interrupt_205_asm_entry);
register_interrupt_handler(0xce, interrupt_206_asm_entry);
register_interrupt_handler(0xcf, interrupt_207_asm_entry);
register_interrupt_handler(0xd0, interrupt_208_asm_entry);
register_interrupt_handler(0xd1, interrupt_209_asm_entry);
register_interrupt_handler(0xd2, interrupt_210_asm_entry);
register_interrupt_handler(0xd3, interrupt_211_asm_entry);
register_interrupt_handler(0xd4, interrupt_212_asm_entry);
register_interrupt_handler(0xd5, interrupt_213_asm_entry);
register_interrupt_handler(0xd6, interrupt_214_asm_entry);
register_interrupt_handler(0xd7, interrupt_215_asm_entry);
register_interrupt_handler(0xd8, interrupt_216_asm_entry);
register_interrupt_handler(0xd9, interrupt_217_asm_entry);
register_interrupt_handler(0xda, interrupt_218_asm_entry);
register_interrupt_handler(0xdb, interrupt_219_asm_entry);
register_interrupt_handler(0xdc, interrupt_220_asm_entry);
register_interrupt_handler(0xdd, interrupt_221_asm_entry);
register_interrupt_handler(0xde, interrupt_222_asm_entry);
register_interrupt_handler(0xdf, interrupt_223_asm_entry);
register_interrupt_handler(0xe0, interrupt_224_asm_entry);
register_interrupt_handler(0xe1, interrupt_225_asm_entry);
register_interrupt_handler(0xe2, interrupt_226_asm_entry);
register_interrupt_handler(0xe3, interrupt_227_asm_entry);
register_interrupt_handler(0xe4, interrupt_228_asm_entry);
register_interrupt_handler(0xe5, interrupt_229_asm_entry);
register_interrupt_handler(0xe6, interrupt_230_asm_entry);
register_interrupt_handler(0xe7, interrupt_231_asm_entry);
register_interrupt_handler(0xe8, interrupt_232_asm_entry);
register_interrupt_handler(0xe9, interrupt_233_asm_entry);
register_interrupt_handler(0xea, interrupt_234_asm_entry);
register_interrupt_handler(0xeb, interrupt_235_asm_entry);
register_interrupt_handler(0xec, interrupt_236_asm_entry);
register_interrupt_handler(0xed, interrupt_237_asm_entry);
register_interrupt_handler(0xee, interrupt_238_asm_entry);
register_interrupt_handler(0xef, interrupt_239_asm_entry);
register_interrupt_handler(0xf0, interrupt_240_asm_entry);
register_interrupt_handler(0xf1, interrupt_241_asm_entry);
register_interrupt_handler(0xf2, interrupt_242_asm_entry);
register_interrupt_handler(0xf3, interrupt_243_asm_entry);
register_interrupt_handler(0xf4, interrupt_244_asm_entry);
register_interrupt_handler(0xf5, interrupt_245_asm_entry);
register_interrupt_handler(0xf6, interrupt_246_asm_entry);
register_interrupt_handler(0xf7, interrupt_247_asm_entry);
register_interrupt_handler(0xf8, interrupt_248_asm_entry);
register_interrupt_handler(0xf9, interrupt_249_asm_entry);
register_interrupt_handler(0xfa, interrupt_250_asm_entry);
register_interrupt_handler(0xfb, interrupt_251_asm_entry);
register_interrupt_handler(0xfc, interrupt_252_asm_entry);
register_interrupt_handler(0xfd, interrupt_253_asm_entry);
register_interrupt_handler(0xfe, interrupt_254_asm_entry);
register_interrupt_handler(0xff, interrupt_255_asm_entry);
for (u8 i = 0; i < GENERIC_INTERRUPT_HANDLERS_COUNT; ++i) {
auto* handler = new UnhandledInterruptHandler(i);
handler->register_interrupt_handler();
}
flush_idt();
}
}