path: root/kernel/source/interrupts.cpp

#include <hilbert/kernel/input.hpp>
#include <hilbert/kernel/panic.hpp>

using namespace hilbert::kernel;

struct [[gnu::packed]] exception_info_t {

  uint64_t rax;
  uint64_t rbx;
  uint64_t rcx;
  uint64_t rdx;
  uint64_t rdi;
  uint64_t rsi;
  uint64_t rbp;
  uint64_t rsp;
  uint64_t r8;
  uint64_t r9;
  uint64_t r10;
  uint64_t r11;
  uint64_t r12;
  uint64_t r13;
  uint64_t r14;
  uint64_t r15;

  uint64_t cr2;
  uint64_t cr3;
  uint64_t rip;
  uint64_t rflags;

  uint64_t error;
  uint8_t has_error;//0 or 1
  uint8_t exception_number;

};

extern exception_info_t exception_info;

extern "C" [[noreturn]] void print_exception() {

  //so exception_info's type is known by gdb
  exception_info_t the_exception_info = exception_info;
  (void)the_exception_info;

  //TODO: log exception, and recover if possible.

  panic(0xba40bb);

}

static uint32_t current_flags = 0;

#define SETBIT(field, bit, cond) \
  field = (cond) ? (field | (bit)) : (field & ~(bit));

static void got_key(uint32_t key) {

  input::key_queue->insert(current_flags | key);
  input::got_input();

  if (key == (input::BREAK | 0x77))
    current_flags ^= input::NUM_LOCK;

  else if (key == (input::BREAK | 0x58))
    current_flags ^= input::CAPS_LOCK;

  else if ((key & 0xff) == 0xa7)
    SETBIT(current_flags, input::RIGHT_WIN, !(key & input::BREAK))

  else if ((key & 0xff) == 0x9f)
    SETBIT(current_flags, input::LEFT_WIN, !(key & input::BREAK))

  else if ((key & 0xff) == 0x91)
    SETBIT(current_flags, input::RIGHT_ALT, !(key & input::BREAK))

  else if ((key & 0xff) == 0x11)
    SETBIT(current_flags, input::LEFT_ALT, !(key & input::BREAK))

  else if ((key & 0xff) == 0x94)
    SETBIT(current_flags, input::RIGHT_CTRL, !(key & input::BREAK))

  else if ((key & 0xff) == 0x14)
    SETBIT(current_flags, input::LEFT_CTRL, !(key & input::BREAK))

  else if ((key & 0xff) == 0x59)
    SETBIT(current_flags, input::RIGHT_SHIFT, !(key & input::BREAK))

  else if ((key & 0xff) == 0x12)
    SETBIT(current_flags, input::LEFT_SHIFT, !(key & input::BREAK))

}

static uint8_t key_so_far[8];
uint8_t key_so_far_len = 0;

extern "C" void on_keyboard_interrupt(uint8_t byte) {

  key_so_far[key_so_far_len++] = byte;

  if (key_so_far_len == 1) {
    if (byte != 0xe0 && byte != 0xe1 && byte != 0xf0) {
      got_key(byte);
      key_so_far_len = 0;
    }
  }

  else if (key_so_far_len == 2) {
    if (key_so_far[0] == 0xe0 && byte != 0xf0 && byte != 0x12) {
      got_key(byte | 0x80);
      key_so_far_len = 0;
    }
    else if (key_so_far[0] == 0xf0) {
      got_key(input::BREAK | byte);
      key_so_far_len = 0;
    }
  }

  else if (key_so_far_len == 3) {
    if (key_so_far[0] == 0xe0 && key_so_far[1] == 0xf0 && byte != 0x7c) {
      got_key(input::BREAK | byte | 0x80);
      key_so_far_len = 0;
    }
  }

  else if (key_so_far_len == 4) {
    if (key_so_far[0] == 0xe0 && key_so_far[1] == 0x12 &&
        key_so_far[2] == 0xe0 && byte == 0x7c) {
      got_key(0xe0);
      key_so_far_len = 0;
    }
  }

  else if (key_so_far_len == 6) {
    if (key_so_far[0] == 0xe0 && key_so_far[1] == 0xf0 &&
        key_so_far[2] == 0x7c && key_so_far[3] == 0xe0 &&
        key_so_far[4] == 0xf0 && byte == 0x12) {
      got_key(input::BREAK | 0xe0);
      key_so_far_len = 0;
    }
  }

  else if (key_so_far_len == 8) {
    if (key_so_far[0] == 0xe1 && key_so_far[1] == 0x14 &&
        key_so_far[2] == 0x77 && key_so_far[3] == 0xe1 &&
        key_so_far[2] == 0xf0 && key_so_far[3] == 0x14 &&
        key_so_far[4] == 0xf0 && byte == 0x77) {
      got_key(0xe1);
      got_key(input::BREAK | 0xe1);
    }
    key_so_far_len = 0;
  }

}