@@@ man wip

[mLib] / test / t / tvec-test.c

/* -*-c-*-
 *
 * Test the test-vector framework
 *
 * (c) 2023 Straylight/Edgeware
 */

/*----- Licensing notice --------------------------------------------------*
 *
 * This file is part of the mLib utilities library.
 *
 * mLib is free software: you can redistribute it and/or modify it under
 * the terms of the GNU Library General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or (at
 * your option) any later version.
 *
 * mLib is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Library General Public
 * License for more details.
 *
 * You should have received a copy of the GNU Library General Public
 * License along with mLib.  If not, write to the Free Software
 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307,
 * USA.
 */

/*----- Header files ------------------------------------------------------*/

#include "tv.h"
#include "tvec.h"

#include <sys/select.h>
#include <sys/time.h>

/*----- Register definitions ----------------------------------------------*/

static const struct tvec_iassoc ienum_assocs[] = {
  { "less",            -1 },
  { "equal",            0 },
  { "greater",         +1 },
  { 0 }
};

static const struct tvec_uassoc uenum_assocs[] = {
  { "apple",            0 },
  { "banana",           1 },
  { "clementine",       2 },
  { 0 }
};

static const struct tvec_fassoc fenum_assocs[] = {
  { "e",                2.718281828459045 },
  { "pi",               3.141592653589793 },
  { "tau",              6.283185307179586 },
  { 0 }
};

static const struct tvec_passoc penum_assocs[] = {
  { "alice",            &uenum_assocs[0] },
  { "bob",              &uenum_assocs[1] },
  { "carol",            &uenum_assocs[2] },
  { 0 }
};

#if __STDC_VERSION__x >= 199901
#  define DSGINIT(x) x
#else
#  define DSGINIT(x)
#endif

static const struct tvec_floatinfo fenum_fltinfo =
  { TVFF_ABSDELTA, -10, +10, 1e-3 };

#define DEFENUM(tag, ty, slot)                                          \
  static const struct tvec_##slot##enuminfo slot##enum_info =           \
    { slot##enum_NAME, slot##enum_assocs slot##enum_ARGS };
#define ienum_NAME "order"
#define ienum_ARGS , &tvrange_i16
#define uenum_NAME "fruit"
#define uenum_ARGS , &tvrange_u16
#define fenum_NAME "const"
#define fenum_ARGS , &fenum_fltinfo
#define penum_NAME "actor"
#define penum_ARGS
TVEC_MISCSLOTS(DEFENUM)
#undef DEFENUM

static const struct tvec_flag attr_flags[] = {
  { "black-fg",         0x07, 0x00 },
  { "blue-fg",          0x07, 0x01 },
  { "red-fg",           0x07, 0x02 },
  { "magenta-fg",       0x07, 0x03 },
  { "green-fg",         0x07, 0x04 },
  { "cyan-fg",          0x07, 0x05 },
  { "yellow-fg",        0x07, 0x06 },
  { "white-fg",         0x07, 0x07 },

  { "black-bg",         0x38, 0x00 },
  { "blue-bg",          0x38, 0x08 },
  { "red-bg",           0x38, 0x10 },
  { "magenta-bg",       0x38, 0x18 },
  { "green-bg",         0x38, 0x20 },
  { "cyan-bg",          0x38, 0x28 },
  { "yellow-bg",        0x38, 0x30 },
  { "white-bg",         0x38, 0x38 },

  { "normal",           0xc0, 0x00 },
  { "bright",           0x40, 0x40 },
  { "flash",            0x80, 0x80 },

  { 0 }
};

static const struct tvec_flaginfo attr_info =
  { "attr", attr_flags, &tvrange_u16 };

static const struct tvec_floatinfo fltish_info =
  { TVFF_RELDELTA, -1.0, +1.0, 1e-6 };

static const struct tvec_urange range_32 = { 0, 31 };

#define TYPEREGS(_)                                                     \
  _(int,        RI,     int,                    p, &tvrange_i16)        \
  _(uint,       RU,     uint,                   p, &tvrange_u16)        \
  _(float,      RFP,    float,                  p, 0)                   \
  _(fltish,     RFISH,  float,                  p, &fltish_info)        \
  _(char,       RCH,    char,                   p, 0)                   \
  _(ienum,      RIE,    ienum,                  p, &ienum_info)         \
  _(uenum,      RUE,    uenum,                  p, &uenum_info)         \
  _(fenum,      RFE,    fenum,                  p, &fenum_info)         \
  _(penum,      RPE,    penum,                  p, &penum_info)         \
  _(flags,      RF,     flags,                  p, &attr_info)          \
  _(text,       RTXT,   text,                   p, &range_32)           \
  _(bytes,      RBY,    bytes,                  p, &tvrange_byte)       \
  _(buffer,     RBUF,   buffer,                 p, 0)

enum {
  /* Output registers, one for each register type. */
#define DEFREG(name, i, ty, argslot, argval) i,
  TYPEREGS(DEFREG)
#undef DEFREG
  NTY,

  /* Outputs. */
  RRC = NTY,                            /* return code from deserialize */
  RSEROUT,                              /* serialized output */

  NROUT,

  /* Alternative outputs. */
  RVOUT = 0,                            /* output/copy value */
  RLEFT,                                /* size data remaining in input */

  /* Additional inputs. */
  RSAB = NROUT,                         /* which register to sabotage */
  RV,                                   /* input value */
  RSER,                                 /* serialized input */

  NREG
};

/*----- Common execution environment --------------------------------------*/

struct test_context {
  struct tvec_state *tv;
  unsigned f;
#define SF_SHOW 1u
};

static void common_setup(struct tvec_state *tv,
                         const struct tvec_env *env, void *pctx, void *ctx)
{
  struct test_context *tctx = ctx;

  tctx->tv = tv;
  tctx->f = 0;
}

static int common_setvar(struct tvec_state *tv, const char *var,
                         const union tvec_regval *rv, void *ctx)
{
  struct test_context *tctx = ctx;

  if (STRCMP(var, ==, "@show")) {
    if (rv->i) tctx->f |= SF_SHOW;
  } else assert(!"unknown var");
  return (0);
}

static const struct tvec_vardef show_var =
  { sizeof(struct tvec_reg), common_setvar,
    { "@show", -1, &tvty_ienum, 0, { &tvenum_bool } } };

static const struct tvec_vardef *common_findvar
  (struct tvec_state *tv, const char *var, void **ctx_out, void *ctx)
{
  if (STRCMP(var, ==, "@show")) { *ctx_out = ctx; return (&show_var); }
  return (0);
}

static void common_run(struct tvec_state *tv, tvec_testfn *fn, void *ctx)
{
  struct test_context *tctx = ctx;
  unsigned f = tctx->f;

  fn(tv->in, tv->out, tctx);
  if (tvec_checkregs(tv)) { tvec_fail(tv, 0); f |= SF_SHOW; }
  if (f&SF_SHOW) tvec_mismatch(tv, TVMF_IN | TVMF_OUT);
}

static void common_after(struct tvec_state *tv, void *ctx)
  { struct test_context *tctx = ctx; tctx->f = 0; }

static const struct tvec_env common_testenv = {
  sizeof(struct test_context),
  common_setup, common_findvar,
  0, common_run, common_after,
  0
};

/*----- Single-type copy tests --------------------------------------------*/

static void test_copy_simple
  (const struct tvec_reg *in, struct tvec_reg *out, void *ctx)
  { out->v = in->v; }

static void test_copy_text
  (const struct tvec_reg *in, struct tvec_reg *out, void *ctx)
{
  tvec_alloctext(&out->v, in->v.text.sz);
  memcpy(out->v.text.p, in->v.text.p, in->v.text.sz);
}

static void test_copy_bytes
  (const struct tvec_reg *in, struct tvec_reg *out, void *ctx)
{
  tvec_allocbytes(&out->v, in->v.bytes.sz);
  memcpy(out->v.bytes.p, in->v.bytes.p, in->v.bytes.sz);
}

static void test_copy_buffer
  (const struct tvec_reg *in, struct tvec_reg *out, void *ctx)
  { tvec_initbuffer(&out->v, &in->v, in->v.buf.sz); }

#define test_copy_int test_copy_simple
#define test_copy_uint test_copy_simple
#define test_copy_ienum test_copy_simple
#define test_copy_uenum test_copy_simple
#define test_copy_fenum test_copy_simple
#define test_copy_penum test_copy_simple
#define test_copy_char test_copy_simple
#define test_copy_flags test_copy_simple
#define test_copy_float test_copy_simple
#define test_copy_fltish test_copy_simple

#define COPYREG(name, i, ty, argslot, argval)                           \
        static DSGINIT(const) struct tvec_regdef name##_copyregs[] = {  \
          { #name, RVOUT, &tvty_##ty, 0, DSGINIT({ .argslot = argval }) }, \
          { 0 }                                                         \
        };
TYPEREGS(COPYREG)
#undef COPYREG

/*----- Single-type serialization tests -----------------------------------*/

static void setup_regdef(struct tvec_regdef *rd, unsigned i,
                         struct tvec_state *tv)
{
  const struct tvec_regdef *r;

  for (r = tv->test->regs; r->name; r++) if (r->i == i) goto found;
  tvec_error(tv, "internel: register definition not found"); exit(2);
found:
  rd[0] = *r; rd[1].name = 0;
}

static void test_single_serialize
  (const struct tvec_reg *in, struct tvec_reg *out, void *ctx)
{
  struct test_context *tctx = ctx;
  struct tvec_state *tv = tctx->tv;
  struct tvec_regdef rd[2];
  dbuf b = DBUF_INIT;
  int rc;

  setup_regdef(rd, RV, tv);
  rc = tvec_serialize(tv->in, DBUF_BUF(&b), rd, NREG,
                      sizeof(struct tvec_reg));
  out[RRC].v.i = rc;
  if (rc)
    out[RSEROUT].f &= ~TVRF_LIVE;
  else {
    tvec_allocbytes(&out[RSEROUT].v, BLEN(DBUF_BUF(&b)));
    memcpy(out[RSEROUT].v.bytes.p, BBASE(DBUF_BUF(&b)), BLEN(DBUF_BUF(&b)));
  }
}

static void test_single_deserialize
  (const struct tvec_reg *in, struct tvec_reg *out, void *ctx)
{
  struct test_context *tctx = ctx;
  struct tvec_state *tv = tctx->tv;
  struct tvec_regdef rd[2];
  buf b;
  int rc;

  setup_regdef(rd, RV, tv);
  buf_init(&b, in[RSER].v.bytes.p, in[RSER].v.bytes.sz);
  rc = tvec_deserialize(tv->out, &b, rd, NREG, sizeof(struct tvec_reg));
  out[RRC].v.i = rc;
  if (rc) out[RVOUT].f &= ~TVRF_LIVE;
}

#define SERREG(name, i, ty, argslot, argval)                            \
        static DSGINIT(const) struct tvec_regdef name##_serregs[] = {   \
          { #name, RV,  &tvty_##ty, 0, DSGINIT({ .argslot = argval }) }, \
          { "buf", RSEROUT, &tvty_bytes },                              \
          { "rc", RRC,  &tvty_int,      TVRF_OPT,       { &tvrange_int } }, \
          TVEC_ENDREGS                                                  \
        };                                                              \
        static DSGINIT(const) struct tvec_regdef name##_deserregs[] = { \
          { "buf", RSER, &tvty_bytes },                                 \
          { #name, RVOUT, &tvty_##ty, 0, DSGINIT({ .argslot = argval }) }, \
          { "left", RLEFT, &tvty_uint,  TVRF_OPT,      { &tvrange_size } }, \
          { "rc", RRC,  &tvty_int,      TVRF_OPT,       { &tvrange_int } }, \
          TVEC_ENDREGS                                                  \
        };
TYPEREGS(SERREG)
#undef SERREG

static void before_single_serialize(struct tvec_state *tv, void *ctx)
{
  if (!(tv->in[RRC].f&TVRF_LIVE)) {
    tv->in[RRC].v.i = 0; tv->in[RRC].f |= TVRF_LIVE;
    tv->out[RRC].f |= TVRF_LIVE;
  }
}

static void before_single_deserialize(struct tvec_state *tv, void *ctx)
{
  if (!(tv->in[RRC].f&TVRF_LIVE)) {
    tv->in[RRC].v.i = 0; tv->in[RRC].f |= TVRF_LIVE;
    tv->out[RRC].f |= TVRF_LIVE;
  }
  if (!(tv->in[RLEFT].f&TVRF_LIVE)) {
    tv->in[RLEFT].v.u = 0; tv->in[RLEFT].f |= TVRF_LIVE;
    tv->out[RLEFT].f |= TVRF_LIVE;
  }
}

static const struct tvec_env single_serialize_testenv = {
  sizeof(struct test_context),
  common_setup, common_findvar,
  before_single_serialize, common_run, common_after,
  0
}, single_deserialize_testenv = {
  sizeof(struct test_context),
  common_setup, common_findvar,
  before_single_deserialize, common_run, common_after,
  0
};

/*----- Multi-type serialization test -------------------------------------*/

static void test_multi_serialize
  (const struct tvec_reg *in, struct tvec_reg *out, void *ctx)
{
  struct test_context *tctx = ctx;
  struct tvec_state *tv = tctx->tv;
  const struct tvec_regdef *rd;
  union tvec_regval *rv;
  dbuf b = DBUF_INIT;

  if (tvec_serialize(tv->in, DBUF_BUF(&b), tv->test->regs,
                     NTY, sizeof(struct tvec_reg)))
    { out[RRC].v.i = -1; goto end; }
  tvec_allocbytes(&out[RSEROUT].v, DBLEN(&b));
  memcpy(out[RSEROUT].v.bytes.p, DBBASE(&b), DBLEN(&b));
  out[RSEROUT].f |= TVRF_LIVE;
  buf_flip(DBUF_BUF(&b));

  if (tvec_deserialize(tv->out, DBUF_BUF(&b), tv->test->regs,
                       NTY, sizeof(struct tvec_reg)))
    { out[RRC].v.i = -2; goto end; }
  if (BLEFT(&b._b))
    { out[RRC].v.i = -3; goto end; }

  if ((in[RSAB].f&TVRF_LIVE) && in[RSAB].v.i >= 0) {
    rd = &tv->test->regs[in[RSAB].v.i]; rv = &out[in[RSAB].v.i].v;
    if (rd->ty == &tvty_int || rd->ty == &tvty_ienum)
      rv->i ^= 1;
    else if (rd->ty == &tvty_uint ||
             rd->ty == &tvty_flags || rd->ty == &tvty_uenum)
      rv->u ^= 1;
    else if (rd->ty == &tvty_float || rd->ty == &tvty_fenum) {
      if (rv->f == rv->f) rv->f = -rv->f;
      else rv->f = 1.0;
    } else if (rd->ty == &tvty_penum)
      rv->p = rv->p
        ? 0
        : (/*unconst*/ void *)
        ((const struct tvec_penuminfo *)rd->arg.p)->av[0].p;
    else if (rd->ty == &tvty_text)
      { if (rv->text.sz) rv->text.p[0] ^= 1; }
    else if (rd->ty == &tvty_bytes)
      { if (rv->bytes.sz) rv->bytes.p[0] ^= 1; }
  }

  out[RRC].v.i = 0;
end:
  dbuf_destroy(&b);
}

static const struct tvec_iassoc reg_assocs[] = {
  { "none",             -1 },
#define DEFASSOC(name, i, ty, argslot, argval) { #name, i },
  TYPEREGS(DEFASSOC)
#undef DEFASSOC
  { 0,                  0 }
};
static const struct tvec_ienuminfo reg_enum = { "reg", reg_assocs, 0 };

static DSGINIT(const) struct tvec_regdef multi_serialize_regs[] = {
#define DEFREG(name, i, ty, argslot, argval)                            \
  { #name,      i,      &tvty_##ty,     TVRF_OPT,                       \
                                            DSGINIT({ .argslot = argval }) },
  TYPEREGS(DEFREG)
#undef DEFREG

  { "rc",       RRC,    &tvty_int,      TVRF_OPT,       { &tvrange_int } },
  { "serialized", RSEROUT, &tvty_bytes, TVRF_OPT },
  { "sabotage", RSAB,   &tvty_ienum,    TVRF_OPT,       { &reg_enum } },

  TVEC_ENDREGS
};

static void before_multi_serialize(struct tvec_state *tv, void *ctx)
{
  if (!(tv->in[RRC].f&TVRF_LIVE)) {
    tv->in[RRC].v.i = 0; tv->in[RRC].f |= TVRF_LIVE;
    tv->out[RRC].f |= TVRF_LIVE;
  }
}

static const struct tvec_env multi_serialize_testenv = {
  sizeof(struct test_context),
  common_setup, common_findvar,
  before_multi_serialize, common_run, common_after,
  0
};

/*----- Crash test --------------------------------------------------------*/

static void test_crash(const struct tvec_reg *in, struct tvec_reg *out,
                       void *ctx)
{
  out[RVOUT].v.u = in[RV].v.u;
  if (in[RSAB].v.i) abort();
}

static const struct tvec_remotefork crash_testenv =
  { TVEC_REMOTEFORK(0, 0) };

static const struct tvec_regdef crash_regs[] = {
  { "crash",    RSAB,   &tvty_ienum,    0,              { &tvenum_bool } },
  { "x",        RV,     &tvty_uint,     0,              { &tvrange_uint } },
  { "z",        RVOUT,  &tvty_uint,     0,              { &tvrange_uint } },
  TVEC_ENDREGS
};

/*----- Sleep test --------------------------------------------------------*/

static void test_sleep(const struct tvec_reg *in, struct tvec_reg *out,
                       void *ctx)
{
  struct timeval now, when, tv;
  int rc;

  rc = gettimeofday(&now, 0); assert(!rc);
  tv.tv_sec = in[RV].v.f; tv.tv_usec = 1e6*(in[RV].v.f - tv.tv_sec);

  TV_ADD(&when, &now, &tv);
  for (;;) {
    rc = select(0, 0, 0, 0, &tv); assert(!rc);
    rc = gettimeofday(&now, 0); assert(!rc);
    if (TV_CMP(&now, >=, &when)) break;
    TV_SUB(&tv, &when, &now);
  }
  out[RVOUT].v.f = in[RV].v.f;
}

static const struct tvec_timeoutenv sleep_subenv =
  { TVEC_TIMEOUTINIT(ITIMER_REAL, 0.25) };
static const struct tvec_remotefork sleep_testenv =
  { TVEC_REMOTEFORK(&sleep_subenv._env, 0) };

static const struct tvec_regdef sleep_regs[] = {
  { "time",     RV,     &tvty_duration, 0,              { &tvflt_nonneg } },
  { "z",        RVOUT,  &tvty_float,    0,              { &tvflt_nonneg } },
  TVEC_ENDREGS
};

/*----- Front end ---------------------------------------------------------*/

static const struct tvec_test tests[] = {
  { "multi",    multi_serialize_regs, &multi_serialize_testenv,
                                                test_multi_serialize },

#define DEFSINGLE(name, i, ty, argslot, argval)                         \
  { "copy-" #name, name##_copyregs,     &common_testenv, test_copy_##name }, \
  { "serialize-" #name, name##_serregs, &single_serialize_testenv, \
                                                test_single_serialize }, \
  { "deserialize-" #name, name##_deserregs, &single_deserialize_testenv, \
                                                test_single_deserialize },
  TYPEREGS(DEFSINGLE)
#undef DEFSINGLE

  { "crash",    crash_regs,     &crash_testenv._env, test_crash },
  { "sleep",    sleep_regs,     &sleep_testenv._env, test_sleep },

  TVEC_ENDTESTS
};

static const struct tvec_config testconfig = {
  tests,
  NROUT, NREG, sizeof(struct tvec_reg)
};

int main(int argc, char *argv[])
{
#if __STDC_VERSION__x < 199901
#  define POKE(name, i, ty, argslot, argval)                            \
        multi_serialize_regs[i].arg.argslot = argval;                   \
        name##_copyregs->arg.argslot = argval;                          \
        name##_serregs->arg.argslot = argval;                           \
        name##_deserregs->arg.argslot = argval;
  TYPEREGS(POKE)
#  undef POKE
#endif
  return (tvec_main(argc, argv, &testconfig, 0));
}

/*----- That's all, folks -------------------------------------------------*/