#include "pcr.h"
#include "pk.h"

int have_fp = 1; // initialized to 1 because it can't be in the .bss section!
int have_vector = 1;

static void handle_vector_disabled(trapframe_t* tf)
{
  if (have_vector)
    tf->sr |= SR_EV;
  else
    panic("No vector hardware! pc %lx, insn %x",tf->epc,(uint32_t)tf->insn);
}

static void handle_vector_bank(trapframe_t* tf)
{
  dump_tf(tf);
  panic("Not enought banks were enabled to execute a vector instruction!");
}

static void handle_vector_illegal_instruction(trapframe_t* tf)
{
  dump_tf(tf);
  panic("An illegal vector instruction was executed!");
}

static void handle_privileged_instruction(trapframe_t* tf)
{
  dump_tf(tf);
  panic("A privileged instruction was executed!");
}

static void handle_illegal_instruction(trapframe_t* tf)
{
#ifdef PK_ENABLE_FP_EMULATION
  irq_enable();

  if(emulate_fp(tf) == 0)
  {
    advance_pc(tf);
    return;
  }
#endif

  dump_tf(tf);
  panic("An illegal instruction was executed!");
}

static void handle_fp_disabled(trapframe_t* tf)
{
  setpcr(PCR_SR, SR_ET);

  if(have_fp && !(mfpcr(PCR_SR) & SR_EF))
    init_fp(tf);
  else
    handle_illegal_instruction(tf);
}

static void handle_breakpoint(trapframe_t* tf)
{
  dump_tf(tf);
  printk("Breakpoint!\n");
}

static void handle_misaligned_fetch(trapframe_t* tf)
{
  dump_tf(tf);
  panic("Misaligned instruction access!");
}

void handle_misaligned_load(trapframe_t* tf)
{
  // TODO emulate misaligned loads and stores
  dump_tf(tf);
  panic("Misaligned load!");
}

void handle_misaligned_store(trapframe_t* tf)
{
  dump_tf(tf);
  panic("Misaligned store!");
}

static void handle_fault_fetch(trapframe_t* tf)
{
  dump_tf(tf);
  panic("Faulting instruction access!");
}

void handle_fault_load(trapframe_t* tf)
{
  dump_tf(tf);
  panic("Faulting load!");
}

void handle_fault_store(trapframe_t* tf)
{
  dump_tf(tf);
  panic("Faulting store!");
}

static void handle_timer_interrupt(trapframe_t* tf)
{
  panic("Timer interrupt!");
}

static void handle_syscall(trapframe_t* tf)
{
  setpcr(PCR_SR, SR_ET);

  long n = tf->gpr[2];
  sysret_t ret = syscall(tf->gpr[4], tf->gpr[5], tf->gpr[6], tf->gpr[7], n);

  tf->gpr[2] = ret.result;
  tf->gpr[3] = ret.result == -1 ? ret.err : 0;

  advance_pc(tf);
}

void handle_trap(trapframe_t* tf)
{
  typedef void (*trap_handler)(trapframe_t*);

  const static trap_handler trap_handlers[] = {
    [CAUSE_MISALIGNED_FETCH] = handle_misaligned_fetch,
    [CAUSE_FAULT_FETCH] = handle_fault_fetch,
    [CAUSE_ILLEGAL_INSTRUCTION] = handle_illegal_instruction,
    [CAUSE_PRIVILEGED_INSTRUCTION] = handle_privileged_instruction,
    [CAUSE_FP_DISABLED] = handle_fp_disabled,
    [CAUSE_SYSCALL] = handle_syscall,
    [CAUSE_BREAKPOINT] = handle_breakpoint,
    [CAUSE_MISALIGNED_LOAD] = handle_misaligned_load,
    [CAUSE_MISALIGNED_STORE] = handle_misaligned_store,
    [CAUSE_FAULT_LOAD] = handle_fault_load,
    [CAUSE_FAULT_STORE] = handle_fault_store,
    [CAUSE_VECTOR_DISABLED] = handle_vector_disabled,
    [CAUSE_VECTOR_BANK] = handle_vector_bank,
    [CAUSE_VECTOR_ILLEGAL_INSTRUCTION] = handle_vector_illegal_instruction,
  };

  kassert(tf->cause < ARRAY_SIZE(trap_handlers) && trap_handlers[tf->cause]);

  trap_handlers[tf->cause](tf);

  pop_tf(tf);
}