Retro68/gcc/liboffloadmic/plugin/libgomp-plugin-intelmic.cpp

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/* Plugin for offload execution on Intel MIC devices.
Copyright (C) 2014-2016 Free Software Foundation, Inc.
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Contributed by Ilya Verbin <ilya.verbin@intel.com>.
This file is part of the GNU Offloading and Multi Processing Library
(libgomp).
Libgomp is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
Libgomp 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 General Public License for
more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/* Host side part of a libgomp plugin. */
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <utility>
#include <vector>
#include <map>
#include "libgomp-plugin.h"
#include "compiler_if_host.h"
#include "main_target_image.h"
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#include "gomp-constants.h"
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#define OFFLOAD_ACTIVE_WAIT_ENV "OFFLOAD_ACTIVE_WAIT"
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#ifdef DEBUG
#define TRACE(...) \
{ \
fprintf (stderr, "HOST:\t%s:%s ", __FILE__, __FUNCTION__); \
fprintf (stderr, __VA_ARGS__); \
fprintf (stderr, "\n"); \
}
#else
#define TRACE { }
#endif
/* Start/end addresses of functions and global variables on a device. */
typedef std::vector<addr_pair> AddrVect;
/* Addresses for one image and all devices. */
typedef std::vector<AddrVect> DevAddrVect;
/* Addresses for all images and all devices. */
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typedef std::map<const void *, DevAddrVect> ImgDevAddrMap;
/* Image descriptor needed by __offload_[un]register_image. */
struct TargetImageDesc {
int64_t size;
/* 10 characters is enough for max int value. */
char name[sizeof ("lib0000000000.so")];
char data[];
};
/* Image descriptors, indexed by a pointer obtained from libgomp. */
typedef std::map<const void *, TargetImageDesc *> ImgDescMap;
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/* Total number of available devices. */
static int num_devices;
/* Total number of shared libraries with offloading to Intel MIC. */
static int num_images;
/* Two dimensional array: one key is a pointer to image,
second key is number of device. Contains a vector of pointer pairs. */
static ImgDevAddrMap *address_table;
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/* Descriptors of all images, registered in liboffloadmic. */
static ImgDescMap *image_descriptors;
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/* Thread-safe registration of the main image. */
static pthread_once_t main_image_is_registered = PTHREAD_ONCE_INIT;
static VarDesc vd_host2tgt = {
{ 1, 1 }, /* dst, src */
{ 1, 0 }, /* in, out */
1, /* alloc_if */
1, /* free_if */
4, /* align */
0, /* mic_offset */
{ 0, 0, 0, 0, 0, 0, 0, 0 }, /* is_static, is_static_dstn, has_length,
is_stack_buf, sink_addr, alloc_disp,
is_noncont_src, is_noncont_dst */
0, /* offset */
0, /* size */
1, /* count */
0, /* alloc */
0, /* into */
0 /* ptr */
};
static VarDesc vd_tgt2host = {
{ 1, 1 }, /* dst, src */
{ 0, 1 }, /* in, out */
1, /* alloc_if */
1, /* free_if */
4, /* align */
0, /* mic_offset */
{ 0, 0, 0, 0, 0, 0, 0, 0 }, /* is_static, is_static_dstn, has_length,
is_stack_buf, sink_addr, alloc_disp,
is_noncont_src, is_noncont_dst */
0, /* offset */
0, /* size */
1, /* count */
0, /* alloc */
0, /* into */
0 /* ptr */
};
__attribute__((constructor))
static void
init (void)
{
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const char *active_wait = getenv (OFFLOAD_ACTIVE_WAIT_ENV);
/* Disable active wait by default to avoid useless CPU usage. */
if (!active_wait)
setenv (OFFLOAD_ACTIVE_WAIT_ENV, "0", 0);
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address_table = new ImgDevAddrMap;
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image_descriptors = new ImgDescMap;
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num_devices = _Offload_number_of_devices ();
}
extern "C" const char *
GOMP_OFFLOAD_get_name (void)
{
const char *res = "intelmic";
TRACE ("(): return %s", res);
return res;
}
extern "C" unsigned int
GOMP_OFFLOAD_get_caps (void)
{
unsigned int res = GOMP_OFFLOAD_CAP_OPENMP_400;
TRACE ("(): return %x", res);
return res;
}
extern "C" int
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GOMP_OFFLOAD_get_type (void)
{
enum offload_target_type res = OFFLOAD_TARGET_TYPE_INTEL_MIC;
TRACE ("(): return %d", res);
return res;
}
extern "C" int
GOMP_OFFLOAD_get_num_devices (void)
{
TRACE ("(): return %d", num_devices);
return num_devices;
}
static bool
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offload (const char *file, uint64_t line, int device, const char *name,
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int num_vars, VarDesc *vars, const void **async_data)
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{
OFFLOAD ofld = __offload_target_acquire1 (&device, file, line);
if (ofld)
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{
if (async_data == NULL)
return __offload_offload1 (ofld, name, 0, num_vars, vars, NULL, 0,
NULL, NULL);
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else
{
OffloadFlags flags;
flags.flags = 0;
flags.bits.omp_async = 1;
return __offload_offload3 (ofld, name, 0, num_vars, vars, NULL, 0,
NULL, async_data, 0, NULL, flags, NULL);
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}
}
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else
{
GOMP_PLUGIN_error ("%s:%d: Offload target acquire failed\n", file, line);
return false;
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}
}
static void
register_main_image ()
{
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/* Do not check the return value, because old versions of liboffloadmic did
not have return values. */
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__offload_register_image (&main_target_image);
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/* liboffloadmic will call GOMP_PLUGIN_target_task_completion when
asynchronous task on target is completed. */
__offload_register_task_callback (GOMP_PLUGIN_target_task_completion);
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}
/* liboffloadmic loads and runs offload_target_main on all available devices
during a first call to offload (). */
extern "C" bool
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GOMP_OFFLOAD_init_device (int device)
{
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TRACE ("(device = %d)", device);
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pthread_once (&main_image_is_registered, register_main_image);
return offload (__FILE__, __LINE__, device, "__offload_target_init_proc", 0,
NULL, NULL);
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}
extern "C" bool
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GOMP_OFFLOAD_fini_device (int device)
{
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TRACE ("(device = %d)", device);
/* liboffloadmic will finalize target processes on all available devices. */
__offload_unregister_image (&main_target_image);
return true;
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}
static bool
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get_target_table (int device, int &num_funcs, int &num_vars, void **&table)
{
VarDesc vd1[2] = { vd_tgt2host, vd_tgt2host };
vd1[0].ptr = &num_funcs;
vd1[0].size = sizeof (num_funcs);
vd1[1].ptr = &num_vars;
vd1[1].size = sizeof (num_vars);
if (!offload (__FILE__, __LINE__, device, "__offload_target_table_p1", 2,
vd1, NULL))
return false;
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int table_size = num_funcs + 2 * num_vars;
if (table_size > 0)
{
table = new void * [table_size];
VarDesc vd2;
vd2 = vd_tgt2host;
vd2.ptr = table;
vd2.size = table_size * sizeof (void *);
return offload (__FILE__, __LINE__, device, "__offload_target_table_p2",
1, &vd2, NULL);
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}
return true;
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}
/* Offload TARGET_IMAGE to all available devices and fill address_table with
corresponding target addresses. */
static bool
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offload_image (const void *target_image)
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{
void *image_start = ((void **) target_image)[0];
void *image_end = ((void **) target_image)[1];
TRACE ("(target_image = %p { %p, %p })",
target_image, image_start, image_end);
int64_t image_size = (uintptr_t) image_end - (uintptr_t) image_start;
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TargetImageDesc *image = (TargetImageDesc *) malloc (offsetof (TargetImageDesc, data)
+ image_size);
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if (!image)
{
GOMP_PLUGIN_error ("%s: Can't allocate memory\n", __FILE__);
return false;
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}
image->size = image_size;
sprintf (image->name, "lib%010d.so", num_images++);
memcpy (image->data, image_start, image->size);
TRACE ("() __offload_register_image %s { %p, %d }",
image->name, image_start, image->size);
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/* Do not check the return value, because old versions of liboffloadmic did
not have return values. */
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__offload_register_image (image);
/* Receive tables for target_image from all devices. */
DevAddrVect dev_table;
bool ret = true;
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for (int dev = 0; dev < num_devices; dev++)
{
int num_funcs = 0;
int num_vars = 0;
void **table = NULL;
ret &= get_target_table (dev, num_funcs, num_vars, table);
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AddrVect curr_dev_table;
for (int i = 0; i < num_funcs; i++)
{
addr_pair tgt_addr;
tgt_addr.start = (uintptr_t) table[i];
tgt_addr.end = tgt_addr.start + 1;
TRACE ("() func %d:\t0x%llx..0x%llx", i,
tgt_addr.start, tgt_addr.end);
curr_dev_table.push_back (tgt_addr);
}
for (int i = 0; i < num_vars; i++)
{
addr_pair tgt_addr;
tgt_addr.start = (uintptr_t) table[num_funcs+i*2];
tgt_addr.end = tgt_addr.start + (uintptr_t) table[num_funcs+i*2+1];
TRACE ("() var %d:\t0x%llx..0x%llx", i, tgt_addr.start, tgt_addr.end);
curr_dev_table.push_back (tgt_addr);
}
dev_table.push_back (curr_dev_table);
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delete [] table;
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}
address_table->insert (std::make_pair (target_image, dev_table));
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image_descriptors->insert (std::make_pair (target_image, image));
return ret;
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}
/* Return the libgomp version number we're compatible with. There is
no requirement for cross-version compatibility. */
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extern "C" unsigned
GOMP_OFFLOAD_version (void)
{
return GOMP_VERSION;
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}
extern "C" int
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GOMP_OFFLOAD_load_image (int device, const unsigned version,
const void *target_image, addr_pair **result)
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{
TRACE ("(device = %d, target_image = %p)", device, target_image);
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if (GOMP_VERSION_DEV (version) > GOMP_VERSION_INTEL_MIC)
{
GOMP_PLUGIN_error ("Offload data incompatible with intelmic plugin"
" (expected %u, received %u)",
GOMP_VERSION_INTEL_MIC, GOMP_VERSION_DEV (version));
return -1;
}
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/* If target_image is already present in address_table, then there is no need
to offload it. */
if (address_table->count (target_image) == 0)
{
/* If fail, return -1 as error code. */
if (!offload_image (target_image))
return -1;
}
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AddrVect *curr_dev_table = &(*address_table)[target_image][device];
int table_size = curr_dev_table->size ();
addr_pair *table = (addr_pair *) malloc (table_size * sizeof (addr_pair));
if (table == NULL)
{
GOMP_PLUGIN_error ("%s: Can't allocate memory\n", __FILE__);
return -1;
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}
std::copy (curr_dev_table->begin (), curr_dev_table->end (), table);
*result = table;
return table_size;
}
extern "C" bool
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GOMP_OFFLOAD_unload_image (int device, unsigned version,
const void *target_image)
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{
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if (GOMP_VERSION_DEV (version) > GOMP_VERSION_INTEL_MIC)
{
GOMP_PLUGIN_error ("Offload data incompatible with intelmic plugin"
" (expected %u, received %u)",
GOMP_VERSION_INTEL_MIC, GOMP_VERSION_DEV (version));
return false;
}
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TRACE ("(device = %d, target_image = %p)", device, target_image);
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/* liboffloadmic unloads the image from all available devices. */
if (image_descriptors->count (target_image) > 0)
{
TargetImageDesc *image_desc = (*image_descriptors)[target_image];
__offload_unregister_image (image_desc);
free (image_desc);
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address_table->erase (target_image);
image_descriptors->erase (target_image);
}
return true;
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}
extern "C" void *
GOMP_OFFLOAD_alloc (int device, size_t size)
{
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TRACE ("(device = %d, size = %d)", device, size);
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void *tgt_ptr;
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VarDesc vd[2] = { vd_host2tgt, vd_tgt2host };
vd[0].ptr = &size;
vd[0].size = sizeof (size);
vd[1].ptr = &tgt_ptr;
vd[1].size = sizeof (void *);
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if (!offload (__FILE__, __LINE__, device, "__offload_target_alloc", 2,
vd, NULL))
return NULL;
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return tgt_ptr;
}
extern "C" bool
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GOMP_OFFLOAD_free (int device, void *tgt_ptr)
{
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TRACE ("(device = %d, tgt_ptr = %p)", device, tgt_ptr);
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VarDesc vd = vd_host2tgt;
vd.ptr = &tgt_ptr;
vd.size = sizeof (void *);
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return offload (__FILE__, __LINE__, device, "__offload_target_free", 1,
&vd, NULL);
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}
extern "C" bool
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GOMP_OFFLOAD_host2dev (int device, void *tgt_ptr, const void *host_ptr,
size_t size)
{
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TRACE ("(device = %d, tgt_ptr = %p, host_ptr = %p, size = %d)",
device, tgt_ptr, host_ptr, size);
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if (!size)
return true;
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VarDesc vd1[2] = { vd_host2tgt, vd_host2tgt };
vd1[0].ptr = &tgt_ptr;
vd1[0].size = sizeof (void *);
vd1[1].ptr = &size;
vd1[1].size = sizeof (size);
if (!offload (__FILE__, __LINE__, device, "__offload_target_host2tgt_p1", 2,
vd1, NULL))
return false;
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VarDesc vd2 = vd_host2tgt;
vd2.ptr = (void *) host_ptr;
vd2.size = size;
return offload (__FILE__, __LINE__, device, "__offload_target_host2tgt_p2", 1,
&vd2, NULL);
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}
extern "C" bool
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GOMP_OFFLOAD_dev2host (int device, void *host_ptr, const void *tgt_ptr,
size_t size)
{
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TRACE ("(device = %d, host_ptr = %p, tgt_ptr = %p, size = %d)",
device, host_ptr, tgt_ptr, size);
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if (!size)
return true;
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VarDesc vd1[2] = { vd_host2tgt, vd_host2tgt };
vd1[0].ptr = &tgt_ptr;
vd1[0].size = sizeof (void *);
vd1[1].ptr = &size;
vd1[1].size = sizeof (size);
if (!offload (__FILE__, __LINE__, device, "__offload_target_tgt2host_p1", 2,
vd1, NULL))
return false;
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VarDesc vd2 = vd_tgt2host;
vd2.ptr = (void *) host_ptr;
vd2.size = size;
return offload (__FILE__, __LINE__, device, "__offload_target_tgt2host_p2", 1,
&vd2, NULL);
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}
extern "C" bool
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GOMP_OFFLOAD_dev2dev (int device, void *dst_ptr, const void *src_ptr,
size_t size)
{
TRACE ("(device = %d, dst_ptr = %p, src_ptr = %p, size = %d)",
device, dst_ptr, src_ptr, size);
if (!size)
return true;
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VarDesc vd[3] = { vd_host2tgt, vd_host2tgt, vd_host2tgt };
vd[0].ptr = &dst_ptr;
vd[0].size = sizeof (void *);
vd[1].ptr = &src_ptr;
vd[1].size = sizeof (void *);
vd[2].ptr = &size;
vd[2].size = sizeof (size);
return offload (__FILE__, __LINE__, device, "__offload_target_tgt2tgt", 3,
vd, NULL);
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}
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extern "C" void
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GOMP_OFFLOAD_async_run (int device, void *tgt_fn, void *tgt_vars,
void **, void *async_data)
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{
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TRACE ("(device = %d, tgt_fn = %p, tgt_vars = %p, async_data = %p)", device,
tgt_fn, tgt_vars, async_data);
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VarDesc vd[2] = { vd_host2tgt, vd_host2tgt };
vd[0].ptr = &tgt_fn;
vd[0].size = sizeof (void *);
vd[1].ptr = &tgt_vars;
vd[1].size = sizeof (void *);
offload (__FILE__, __LINE__, device, "__offload_target_run", 2, vd,
(const void **) async_data);
}
extern "C" void
GOMP_OFFLOAD_run (int device, void *tgt_fn, void *tgt_vars, void **)
{
TRACE ("(device = %d, tgt_fn = %p, tgt_vars = %p)", device, tgt_fn, tgt_vars);
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GOMP_OFFLOAD_async_run (device, tgt_fn, tgt_vars, NULL, NULL);
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}