bsb1/arch/core_interrupt.h

/*! \file
 *  \brief \ref Core::Interrupt "Interrupt control" and \ref
 * Core::Interrupt::Vector "interrupt vector list"
 */

#pragma once
#include "../types.h"

namespace Core {
/*! \brief Exception and Interrupt control
 *
 * \see [ISDMv3, Chapter 6 Interrupt and Exception
 * Handling](intel_manual_vol3.pdf#page=185)
 */
namespace Interrupt {

/*! \brief Bit in `FLAGS` register corresponding to the current interrupt state
 */
constexpr uintptr_t FLAG_ENABLE = 1 << 9;

/*! \brief List of used interrupt vectors.
 *
 *  The exception vectors from `0` to `31` are reserved for traps, faults and
 * aborts. Their behavior is different for each exception, some push an *error
 * code*, some are not recoverable.
 *
 *  The vectors from `32` to `255` are user defined interrupts.
 *
 *  \see [ISDMv3, 6.15 Exception and Interrupt
 * Reference](intel_manual_vol3.pdf#page=203)
 *  \todo
 */
enum Vector {
  // Predefined Exceptions
  DIVISON_BY_ZERO =
      0,      ///< Divide-by-zero Error (at a `DIV`/`IDIV` instruction)
  DEBUG = 1,  ///< Debug exception
  NON_MASKABLE_INTERRUPT = 2,  ///< Non Maskable Interrupt
  BREAKPOINT = 3,              ///< Breakpoint exception (used for debugging)
  OVERFLOW = 4,                ///< Overflow exception (at `INTO` instruction)
  BOUND_RANGE_EXCEEDED = 5,  ///< Bound Range Exceeded (at `BOUND` instruction)
  INVALID_OPCODE = 6,        ///< Opcode at Instruction Pointer is invalid (you
                             ///< probably shouldn't be here)
  DEVICE_NOT_AVAILABLE =
      7,  ///< FPU/MMX/SSE instruction but corresponding extension not activated
  DOUBLE_FAULT = 8,  ///< Exception occurred while trying to call
                     ///< exception/interrupt handler
  // Coprocessor Segment Overrun (Legacy)
  INVALID_TSS =
      10,  ///< Invalid Task State Segment selector (see error code for index)
  SEGMENT_NOT_PRESENT =
      11,  ///< Segment not available (see error code for selector index)
  STACK_SEGMENT_FAULT = 12,  ///< Stack segment not available or invalid (see
                             ///< error code for selector index)
  GENERAL_PROTECTION_FAULT =
      13,  ///< Operation not allowed (see error code for selector index)
  PAGE_FAULT = 14,  ///< Operation on Page (r/w/x) not allowed for current
                    ///< privilege (error code + `cr2`)
  // reserved
  FLOATING_POINT_EXCEPTION = 16,  ///< x87 FPU error (at `WAIT`/`FWAIT`),
                                  ///< accidentally \ref Core::CR0_NE set?
  ALIGNMENT_CHECK = 17,  ///< Unaligned memory access in userspace (Exception
                         ///< activated by \ref Core::CR0_AM)
  MACHINE_CHECK = 18,    ///< Model specific exception
  SIMD_FP_EXCEPTION =
      19,  ///< SSE/MMX error (if \ref Core::CR4_OSXMMEXCPT activated)
  SECURITY_EXCEPTION = 31,

  // Interrupts
  KEYBOARD=32,
  PANIC=33,
  TIMER=34,
  ASS=25
};
constexpr size_t VECTORS = 256;

/*! \brief Check if interrupts are enabled on this CPU
 *
 * This is done by pushing the `FLAGS` register onto stack,
 * reading it into a register and checking the corresponding bit.
 *
 *  \return `true` if enabled, `false` if disabled
 */
inline bool isEnabled() {
  uintptr_t out;
  asm volatile(
      "pushf\n\t"
      "pop %0\n\t"
      : "=r"(out)
      :
      : "memory");
  return (out & FLAG_ENABLE) != 0;
}

/*! \brief Allow interrupts
 *
 *  Enables interrupt handling by executing the instruction `sti`.
 *  Since this instruction is delayed by one cycle, an subsequent `nop` is
 * executed (to ensure deterministic behavior, independent from the compiler
 * generated code)
 *
 *  A pending interrupt (i.e., those arriving while interrupts were disabled)
 * will be delivered after re-enabling interrupts.
 *
 * \see [ISDMv2, Chapter 4. STI - Set Interrupt
 * Flag](intel_manual_vol2.pdf#page=1297)
 */
inline void enable() { asm volatile("sti\n\t nop\n\t" : : : "memory"); }

/*! \brief Forbid interrupts
 *
 *  Prevents interrupt handling by executing the instruction `cli`.
 *  Will return the previous interrupt state.
 *  \return `true` if interrupts were enabled at the time of executing this
 * function, `false` if they were already disabled.
 *
 *  \see [ISDMv2, Chapter 3. CLI - Ckear Interrupt
 * Flag](intel_manual_vol2.pdf#page=245)
 */
inline bool disable() {
  bool enabled = isEnabled();
  asm volatile("cli\n\t" : : : "memory");

  return enabled;
}

/*! \brief Restore interrupt
 *
 *  Restore the interrupt state to the state prior to calling \ref disable() by
 * using its return value.
 *
 *  \note This function will never disable interrupts, even if val is false!
 *        This function is designed to allow nested disabling and restoring of
 * the interrupt state.
 *
 *  \param val if set to `true`, interrupts will be enabled; nothing will happen
 * on false.
 */
inline void restore(bool val) {
  if (val) {
    enable();
  }
}
}  // namespace Interrupt
}  // namespace Core