libunwind-eh_elf/tests/Gia64-test-rbs.c

#include <stdio.h>
#include <stdlib.h>

#include <libunwind.h>

#include "ia64-test-rbs.h"

#define panic(args...)							  \
	do { fprintf (stderr, args); ++nerrors; return -9999; } while (0)

#define NELEMS(a)	((int) (sizeof (a) / sizeof ((a)[0])))

/* The loadrs field in ar.rsc is 14 bits wide, which limits all ia64
   implementations to at most 2048 physical stacked registers
   (actually, slightly less than that, because loadrs also counts RNaT
   slots).  Since we can dirty 93 stacked registers per recursion, we
   need to recurse RECURSION_DEPTH times to ensure all physical
   stacked registers are in use. */
#define MAX_PHYS_STACKED	2048
#define RECURSION_DEPTH		((MAX_PHYS_STACKED + 92) / 93)

typedef int spill_func_t (long iteration, int (*next_func[])());

extern int loadup (long iteration, int *values, int (*next_func[])());
extern char resumption_point_label;

#define DCL(n) \
 extern int rbs_spill_##n (long iteration, int (*next_func[])())
	           DCL(2);  DCL(3);  DCL(4);  DCL(5);  DCL(6);  DCL(7);
  DCL(8);  DCL(9); DCL(10); DCL(11); DCL(12); DCL(13); DCL(14); DCL(15);
 DCL(16); DCL(17); DCL(18); DCL(19); DCL(20); DCL(21); DCL(22); DCL(23);
 DCL(24); DCL(25); DCL(26); DCL(27); DCL(28); DCL(29); DCL(30); DCL(31);
 DCL(32); DCL(33); DCL(34); DCL(35); DCL(36); DCL(37); DCL(38); DCL(39);
 DCL(40); DCL(41); DCL(42); DCL(43); DCL(44); DCL(45); DCL(46); DCL(47);
 DCL(48); DCL(49); DCL(50); DCL(51); DCL(52); DCL(53); DCL(54); DCL(55);
 DCL(56); DCL(57); DCL(58); DCL(59); DCL(60); DCL(61); DCL(62); DCL(63);
 DCL(64); DCL(65); DCL(66); DCL(67); DCL(68); DCL(69); DCL(70); DCL(71);
 DCL(72); DCL(73); DCL(74); DCL(75); DCL(76); DCL(77); DCL(78); DCL(79);
 DCL(80); DCL(81); DCL(82); DCL(83); DCL(84); DCL(85); DCL(86); DCL(87);
 DCL(88); DCL(89); DCL(90); DCL(91); DCL(92); DCL(93); DCL(94);

#define SPL(n)  rbs_spill_##n
spill_func_t *spill_funcs[] =
  {
	            SPL(2),   SPL(3),  SPL(4),  SPL(5),  SPL(6),  SPL(7),
     SPL(8),  SPL(9), SPL(10), SPL(11), SPL(12), SPL(13), SPL(14), SPL(15),
    SPL(16), SPL(17), SPL(18), SPL(19), SPL(20), SPL(21), SPL(22), SPL(23),
    SPL(24), SPL(25), SPL(26), SPL(27), SPL(28), SPL(29), SPL(30), SPL(31),
    SPL(32), SPL(33), SPL(34), SPL(35), SPL(36), SPL(37), SPL(38), SPL(39),
    SPL(40), SPL(41), SPL(42), SPL(43), SPL(44), SPL(45), SPL(46), SPL(47),
    SPL(48), SPL(49), SPL(50), SPL(51), SPL(52), SPL(53), SPL(54), SPL(55),
    SPL(56), SPL(57), SPL(58), SPL(59), SPL(60), SPL(61), SPL(62), SPL(63),
    SPL(64), SPL(65), SPL(66), SPL(67), SPL(68), SPL(69), SPL(70), SPL(71),
    SPL(72), SPL(73), SPL(74), SPL(75), SPL(76), SPL(77), SPL(78), SPL(79),
    SPL(80), SPL(81), SPL(82), SPL(83), SPL(84), SPL(85), SPL(86), SPL(87),
    SPL(88), SPL(89), SPL(90), SPL(91), SPL(92), SPL(93), SPL(94)
  };

static int verbose;
static int nerrors;
static int unwind_count;

static int
unwind_and_resume (long iteration, int (*next_func[])())
{
  unw_context_t uc;
  unw_cursor_t c;
  unw_word_t ip;
  int i, ret;

  if (verbose)
    printf (" %s(iteration=%ld, next_func=%p)\n",
	    __FUNCTION__, iteration, next_func);

  unw_getcontext (&uc);
  if ((ret = unw_init_local (&c, &uc)) < 0)
    panic ("unw_init_local (ret=%d)", ret);

  for (i = 0; i < unwind_count; ++i)
    if ((ret = unw_step (&c)) < 0)
      panic ("unw_step (ret=%d)", ret);

  if (unw_get_reg (&c, UNW_REG_IP, &ip) < 0
      || unw_set_reg (&c, UNW_REG_IP, (unw_word_t) &resumption_point_label) < 0
      || unw_set_reg (&c, UNW_REG_EH + 0, 0)	/* ret val */
      || unw_set_reg (&c, UNW_REG_EH + 1, ip))
    panic ("failed to redirect to resumption_point\n");

  if (verbose)
    {
      unw_word_t bsp;
      if (unw_get_reg (&c, UNW_IA64_BSP, &bsp) < 0)
	panic ("unw_get_reg() failed\n");
      printf ("  bsp=%lx, old ip=%lx, new ip=%p\n", bsp,
	      ip, &resumption_point_label);
    }

  ret = unw_resume (&c);
  panic ("unw_resume() returned (ret=%d)!!\n", ret);
  return 0;
}

static int
run_check (int test)
{
  int nfuncs, nspills, n, ret, i, reg_values[88];
  spill_func_t *func[NSTACKS + 1];

  /* First, generate a set of 88 random values which loadup() will load
     into loc2-loc89 (r37-r124).  */
  for (i = 0; i < NELEMS (reg_values); ++i)
    {
      reg_values[i] = random ();
      /* Generate NaTs with a reasonably probability (1/16th): */
      if (reg_values[i] < 0x10000000)
	reg_values[i] = 0;
    }

  nspills = 0;
  nfuncs = 0;
  do
    {
      n = random () % NELEMS (spill_funcs);
      func[nfuncs++] = spill_funcs[n];
      nspills += 2 + n;
    }
  while (nspills < 128);
  func[nfuncs++] = unwind_and_resume;

  unwind_count = 1 + (random () % (nfuncs + RECURSION_DEPTH - 1));

  if (verbose)
    printf ("test%d: nfuncs=%d, unwind_count=%d\n",
	    test, nfuncs, unwind_count);

  ret = loadup (RECURSION_DEPTH, reg_values, func);
  if (ret < 0)
    panic ("test%d: load() returned %d\n", test, ret);
  else if (ret != RECURSION_DEPTH + nfuncs - unwind_count)
    panic ("test%d: resumed wrong frame: expected %d, got %d\n",
	   test, RECURSION_DEPTH + nfuncs - unwind_count, ret);
  return 0;
}

int
main (int argc, char **argv)
{
  int i;

  if (argc > 1)
    verbose = 1;

  for (i = 0; i < 100000; ++i)
    run_check (i + 1);

  if (nerrors > 0)
    {
      fprintf (stderr, "FAILURE: detected %d errors\n", nerrors);
      exit (-1);
    }
  if (verbose)
    printf ("SUCCESS.\n");
  return 0;
}