#pragma once /* The IDT is the system descriptor table that tells the CPU what to do when an interrupt fires. There are three categories of interrupts : - Exceptions ; eg page fault, divide by 0 - IRQ : interrupts caused by hardware - System calls : when an applications asks the system to do something */ #include #define IRQ0 0 // PIT #define IRQ1 1 // PCKBD #define IRQ2 2 // not used #define IRQ3 3 // COM2 #define IRQ4 4 // COM1 #define IRQ5 5 // LPT2 #define IRQ6 6 // Floppy #define IRQ7 7 // LPT1 #define IRQ8 8 // CMOS RTC #define IRQ9 9 // free -> PCI IRQ #define IRQ10 10 // free -> PCI IRQ #define IRQ11 11 // free -> PCI IRQ #define IRQ12 12 // PS2 mouse #define IRQ13 13 // FPU #define IRQ14 14 // Primary ATA HD #define IRQ15 15 // Secondary ATA HD #define EX_DIVIDE_ERROR 0 // No error code #define EX_DEBUG 1 // No error code #define EX_NMI_INTERRUPT 2 // No error code #define EX_BREAKPOINT 3 // No error code #define EX_OVERFLOW 4 // No error code #define EX_BOUND_RANGE_EXCEDEED 5 // No error code #define EX_INVALID_OPCODE 6 // No error code #define EX_DEVICE_NOT_AVAILABLE 7 // No error code #define EX_DOUBLE_FAULT 8 // Yes (Zero) #define EX_COPROCESSOR_SEGMENT_OVERRUN 9 // No error code #define EX_INVALID_TSS 10 // Yes #define EX_SEGMENT_NOT_PRESENT 11 // Yes #define EX_STACK_SEGMENT_FAULT 12 // Yes #define EX_GENERAL_PROTECTION 13 // Yes #define EX_PAGE_FAULT 14 // Yes #define EX_INTEL_RESERVED_1 15 // No #define EX_FLOATING_POINT_ERROR 16 // No #define EX_ALIGNEMENT_CHECK 17 // Yes (Zero) #define EX_MACHINE_CHECK 18 // No #define EX_INTEL_RESERVED_2 19 // No #define EX_INTEL_RESERVED_3 20 // No #define EX_INTEL_RESERVED_4 21 // No #define EX_INTEL_RESERVED_5 22 // No #define EX_INTEL_RESERVED_6 23 // No #define EX_INTEL_RESERVED_7 24 // No #define EX_INTEL_RESERVED_8 25 // No #define EX_INTEL_RESERVED_9 26 // No #define EX_INTEL_RESERVED_10 27 // No #define EX_INTEL_RESERVED_11 28 // No #define EX_INTEL_RESERVED_12 29 // No #define EX_INTEL_RESERVED_13 30 // No #define EX_INTEL_RESERVED_14 31 // No #define EFLAGS_IF (0x1 << 9) typedef struct registers { uint32_t ds; // Data segment selector uint32_t edi, esi, ebp, useless_esp, ebx, edx, ecx, eax; // Pushed by pusha. uint32_t int_no, err_code; // Interrupt number and error code (if applicable) uint32_t eip, cs, eflags, esp, ss; // Pushed by the processor automatically. } registers_t; typedef void (*isr_handler_t)(registers_t*); void idt_init(); void idt_set_ex_handler(int number, isr_handler_t func); //Set exception handler void idt_set_irq_handler(int number, isr_handler_t func); //Set IRQ handler void dbg_dump_registers(registers_t*); /* vim: set ts=4 sw=4 tw=0 noet :*/