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view dyncall/dyncall_callvm_arm32_arm_armhf.c @ 533:71c884e610f0

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- integration of patches from Raphael Luba, Thekla, Inc.: * integration of aggregate-by-value (struct, union) support patch for x64 (win and sysv) * windows/x64 asm additions to specify how stack unwinds (help for debuggers, exception handling, etc.) * see Changelog for details - new calling convention modes for thiscalls (platform agnostic, was specific before) * new signature character for platform agnostic thiscalls ('*' / DC_SIGCHAR_CC_THISCALL) - dcCallF(), dcVCallF(), dcArgF() and dcVArgF(): * added support for aggregates-by-value (wasn't part of patch) * change that those functions don't implicitly call dcReset() anymore, which was unflexible (breaking change) - added macros to feature test implementation for aggregate-by-value and syscall support - changed libdyncall_s.lib and libdyncallback_s.lib order in callback test makefiles, as some toolchains are picky about order - doc: * man page updates to describe aggregate interface * manual overview changes to highlight platforms with aggregate-by-value support - test/plain: replaced tests w/ old/stale sctruct interface with new aggregate one
author Tassilo Philipp
date Thu, 21 Apr 2022 13:35:47 +0200
parents ddfb9577a00e
children
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/*

 Package: dyncall
 Library: dyncall
 File: dyncall/dyncall_callvm_arm32_arm_armhf.c
 Description: ARM 'armhf' ABI implementation
 License:

   Copyright (c) 2007-2020 Daniel Adler <dadler@uni-goettingen.de>,
                           Tassilo Philipp <tphilipp@potion-studios.com>

   Permission to use, copy, modify, and distribute this software for any
   purpose with or without fee is hereby granted, provided that the above
   copyright notice and this permission notice appear in all copies.

   THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
   WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
   MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
   ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
   WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
   ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
   OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.

*/


#include "dyncall_callvm_arm32_arm_armhf.h"
#include "dyncall_alloc.h"


/*
** arm32 armhf mode calling convention calls
**
** - hybrid return-type call (bool ... pointer)
**
** Note the return type of this declaration is intentially of double-word size (despite
** the return value not being used in the code below).
** On some platforms the compiler generates cleanup code in the caller
** (dyncall_callvm_arm32_arm_armhf.c's call()) that reuses- thus overwrites - r0 and r1.
** With this "hint", we preserve those registers by letting the compiler assume both
** registers are used for the return type.
*/
DClonglong dcCall_arm32_armhf(DCpointer target, DCpointer stackdata, DCsize size, DCfloat* p_s16);


static void deinit(DCCallVM* in_self)
{
  dcFreeMem(in_self);
}


static void reset(DCCallVM* in_p)
{
  DCCallVM_arm32_armhf* p = (DCCallVM_arm32_armhf*)in_p;
  p->i = 0;
  p->s = 0;
  p->d = 0;
  dcVecResize(&p->mVecHead, 16);
}

static void a_int(DCCallVM* in_self, DCint x)
{
  DCCallVM_arm32_armhf* p = (DCCallVM_arm32_armhf*)in_self;
  if (p->i < 16) {
    * (DCint*) dcVecAt(&p->mVecHead, p->i) = x;
    p->i += 4;
  } else {
    dcVecAppend(&p->mVecHead, &x, sizeof(DCint));
  }
}

static void a_bool    (DCCallVM* in_self, DCbool  x) { a_int(in_self, (DCint)x); }
static void a_char    (DCCallVM* in_self, DCchar  x) { a_int(in_self, x); }
static void a_short   (DCCallVM* in_self, DCshort x) { a_int(in_self, x); }
static void a_long    (DCCallVM* in_self, DClong  x) { a_int(in_self, x); }

static void a_longlong(DCCallVM* in_self, DClonglong x)
{
  DCCallVM_arm32_armhf* p = (DCCallVM_arm32_armhf*)in_self;

  p->i = (p->i+4) & -8;
  if (p->i < 16) {
    * (DClonglong*) dcVecAt(&p->mVecHead, p->i) = x;
    p->i += 8;
  } else {
    /* 64 bit values need to be aligned on 8 byte boundaries */
    dcVecSkip(&p->mVecHead, dcVecSize(&p->mVecHead) & 4);
    dcVecAppend(&p->mVecHead, &x, sizeof(DClonglong));
  }
}

static void a_pointer(DCCallVM* in_p, DCpointer x) { a_int(in_p, (DCint) x ); }

static void a_float(DCCallVM* in_p, DCfloat x)
{
  DCCallVM_arm32_armhf* p = (DCCallVM_arm32_armhf*)in_p;
  if (p->s < 16) {
    p->S[p->s++] = x;
    if (p->d < p->s) {
      p->d = (p->s+1) & ~(1U);
    } else {
      p->s = p->d;
    }
  } else {
    dcVecAppend(&p->mVecHead, &x, sizeof(DCfloat));
  }
}

static void a_double(DCCallVM* in_p, DCdouble x)
{
  union {
    DCdouble d;
    DCchar   b[8];
  } v;

  DCCallVM_arm32_armhf* p = (DCCallVM_arm32_armhf*)in_p;
  if (p->d < 16) {
    * (DCdouble*) &p->S[p->d] = x;
    p->d += 2;
    if (!(p->s & 1)) {
      /* if s is even it always equals d. otherwise, s points to an odd float register. */
      p->s = p->d;
    }
  } else {
    p->s = 16; /* fp registers all full - need to use stack now: stop filling gaps for single precision, also */
    v.d = x;
    /* 64 bit values need to be aligned on 8 byte boundaries */
    dcVecSkip(&p->mVecHead, dcVecSize(&p->mVecHead) & 4);
    dcVecAppend(&p->mVecHead, &v.b[0], sizeof(DCdouble));
  }
}

static void a_float_ellipsis(DCCallVM* in_p, DCfloat x)
{
  a_int(in_p, *(DCint*)&x);
}

static void a_double_ellipsis(DCCallVM* in_p, DCdouble x)
{
  a_longlong(in_p, *(DClonglong*)&x);
}

void call(DCCallVM* in_p, DCpointer target)
{
  DCCallVM_arm32_armhf* p = (DCCallVM_arm32_armhf*)in_p;
  dcCall_arm32_armhf(target, dcVecData(&p->mVecHead), dcVecSize(&p->mVecHead), &p->S[0]);
}

static void mode(DCCallVM* in_self,DCint mode);

DCCallVM_vt vt_armhf =
{
  &deinit
, &reset
, &mode
, &a_bool
, &a_char
, &a_short
, &a_int
, &a_long
, &a_longlong
, &a_float
, &a_double
, &a_pointer
, NULL /* argAggr */
, (DCvoidvmfunc*)       &call
, (DCboolvmfunc*)       &call
, (DCcharvmfunc*)       &call
, (DCshortvmfunc*)      &call
, (DCintvmfunc*)        &call
, (DClongvmfunc*)       &call
, (DClonglongvmfunc*)   &call
, (DCfloatvmfunc*)      &call
, (DCdoublevmfunc*)     &call
, (DCpointervmfunc*)    &call
, NULL /* callAggr */
, NULL /* beginAggr */
};

DCCallVM_vt vt_armhf_ellipsis =
{
  &deinit
, &reset
, &mode
, &a_bool
, &a_char
, &a_short
, &a_int
, &a_long
, &a_longlong
, &a_float_ellipsis
, &a_double_ellipsis
, &a_pointer
, NULL /* argAggr */
, (DCvoidvmfunc*)       &call
, (DCboolvmfunc*)       &call
, (DCcharvmfunc*)       &call
, (DCshortvmfunc*)      &call
, (DCintvmfunc*)        &call
, (DClongvmfunc*)       &call
, (DClonglongvmfunc*)   &call
, (DCfloatvmfunc*)      &call
, (DCdoublevmfunc*)     &call
, (DCpointervmfunc*)    &call
, NULL /* callAggr */
, NULL /* beginAggr */
};

static void mode(DCCallVM* in_self, DCint mode)
{
  DCCallVM_arm32_armhf* self = (DCCallVM_arm32_armhf*)in_self;
  DCCallVM_vt* vt;

  switch(mode) {
    case DC_CALL_C_DEFAULT:
    case DC_CALL_C_DEFAULT_THIS:
    case DC_CALL_C_ARM_ARMHF:
      vt = &vt_armhf;
      break;
    case DC_CALL_C_ELLIPSIS:
    case DC_CALL_C_ELLIPSIS_VARARGS:
      vt = &vt_armhf_ellipsis;
      break;
    default:
      self->mInterface.mError = DC_ERROR_UNSUPPORTED_MODE;
      return;
  }
  dc_callvm_base_init(&self->mInterface, vt);
}

/* Public API. */
DCCallVM* dcNewCallVM(DCsize size)
{
  /* Store at least 16 bytes (4 words for first 4 int args) for internal spill area. Assembly code depends on it. */
  DCCallVM_arm32_armhf* p = (DCCallVM_arm32_armhf*)dcAllocMem(sizeof(DCCallVM_arm32_armhf)+size+16);

  mode((DCCallVM*)p, DC_CALL_C_DEFAULT);

  dcVecInit(&p->mVecHead, size);
  reset((DCCallVM*)p);

  return (DCCallVM*)p;
}