Retro68/gcc/liboffloadmic/plugin/offload_target_main.cpp
2017-04-10 13:32:00 +02:00

381 lines
10 KiB
C++

/* Plugin for offload execution on Intel MIC devices.
Copyright (C) 2014-2015 Free Software Foundation, Inc.
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/>. */
/* Target side part of a libgomp plugin. */
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include "compiler_if_target.h"
#ifdef DEBUG
#define TRACE(...) \
{ \
fprintf (stderr, "TARGET:\t%s:%s ", __FILE__, __FUNCTION__); \
fprintf (stderr, __VA_ARGS__); \
fprintf (stderr, "\n"); \
}
#else
#define TRACE { }
#endif
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 */
};
/* Pointer to the descriptor of the last loaded shared library. */
static void *last_loaded_library = NULL;
/* Pointer and size of the variable, used in __offload_target_host2tgt_p[12]
and __offload_target_tgt2host_p[12]. */
static void *last_var_ptr = NULL;
static int last_var_size = 0;
/* Override the corresponding functions from libgomp. */
extern "C" int
omp_is_initial_device (void) __GOMP_NOTHROW
{
return 0;
}
extern "C" int32_t
omp_is_initial_device_ (void)
{
return omp_is_initial_device ();
}
/* Dummy function needed for the initialization of target process during the
first call to __offload_offload1. */
static void
__offload_target_init_proc (OFFLOAD ofldt)
{
TRACE ("");
}
/* Collect addresses of the offload functions and of the global variables from
the library descriptor and send them to host.
Part 1: Send num_funcs and num_vars to host. */
static void
__offload_target_table_p1 (OFFLOAD ofldt)
{
void ***lib_descr = (void ***) last_loaded_library;
if (lib_descr == NULL)
{
TRACE ("");
fprintf (stderr, "Error! No shared libraries loaded on target.\n");
return;
}
void **func_table_begin = lib_descr[0];
void **func_table_end = lib_descr[1];
void **var_table_begin = lib_descr[2];
void **var_table_end = lib_descr[3];
/* The func table contains only addresses, the var table contains addresses
and corresponding sizes. */
int num_funcs = func_table_end - func_table_begin;
int num_vars = (var_table_end - var_table_begin) / 2;
TRACE ("(num_funcs = %d, num_vars = %d)", num_funcs, num_vars);
VarDesc vd[2] = { vd_tgt2host, vd_tgt2host };
vd[0].ptr = &num_funcs;
vd[0].size = sizeof (num_funcs);
vd[1].ptr = &num_vars;
vd[1].size = sizeof (num_vars);
__offload_target_enter (ofldt, 2, vd, NULL);
__offload_target_leave (ofldt);
}
/* Part 2: Send the table with addresses to host. */
static void
__offload_target_table_p2 (OFFLOAD ofldt)
{
void ***lib_descr = (void ***) last_loaded_library;
void **func_table_begin = lib_descr[0];
void **func_table_end = lib_descr[1];
void **var_table_begin = lib_descr[2];
void **var_table_end = lib_descr[3];
int num_funcs = func_table_end - func_table_begin;
int num_vars = (var_table_end - var_table_begin) / 2;
int table_size = (num_funcs + 2 * num_vars) * sizeof (void *);
void **table = (void **) malloc (table_size);
TRACE ("(table_size = %d)", table_size);
VarDesc vd = vd_tgt2host;
vd.ptr = table;
vd.size = table_size;
__offload_target_enter (ofldt, 1, &vd, NULL);
void **p;
int i = 0;
for (p = func_table_begin; p < func_table_end; p++, i++)
table[i] = *p;
for (p = var_table_begin; p < var_table_end; p++, i++)
table[i] = *p;
__offload_target_leave (ofldt);
free (table);
}
/* Allocate size bytes and send a pointer to the allocated memory to host. */
static void
__offload_target_alloc (OFFLOAD ofldt)
{
size_t size = 0;
void *ptr = NULL;
VarDesc vd[2] = { vd_host2tgt, vd_tgt2host };
vd[0].ptr = &size;
vd[0].size = sizeof (size);
vd[1].ptr = &ptr;
vd[1].size = sizeof (void *);
__offload_target_enter (ofldt, 2, vd, NULL);
ptr = malloc (size);
TRACE ("(size = %d): ptr = %p", size, ptr);
__offload_target_leave (ofldt);
}
/* Free the memory space pointed to by ptr. */
static void
__offload_target_free (OFFLOAD ofldt)
{
void *ptr = 0;
VarDesc vd = vd_host2tgt;
vd.ptr = &ptr;
vd.size = sizeof (void *);
__offload_target_enter (ofldt, 1, &vd, NULL);
TRACE ("(ptr = %p)", ptr);
free (ptr);
__offload_target_leave (ofldt);
}
/* Receive var_size bytes from host and store to var_ptr.
Part 1: Receive var_ptr and var_size from host. */
static void
__offload_target_host2tgt_p1 (OFFLOAD ofldt)
{
void *var_ptr = NULL;
size_t var_size = 0;
VarDesc vd[2] = { vd_host2tgt, vd_host2tgt };
vd[0].ptr = &var_ptr;
vd[0].size = sizeof (void *);
vd[1].ptr = &var_size;
vd[1].size = sizeof (var_size);
__offload_target_enter (ofldt, 2, vd, NULL);
TRACE ("(var_ptr = %p, var_size = %d)", var_ptr, var_size);
last_var_ptr = var_ptr;
last_var_size = var_size;
__offload_target_leave (ofldt);
}
/* Part 2: Receive the data from host. */
static void
__offload_target_host2tgt_p2 (OFFLOAD ofldt)
{
TRACE ("(last_var_ptr = %p, last_var_size = %d)",
last_var_ptr, last_var_size);
VarDesc vd = vd_host2tgt;
vd.ptr = last_var_ptr;
vd.size = last_var_size;
__offload_target_enter (ofldt, 1, &vd, NULL);
__offload_target_leave (ofldt);
}
/* Send var_size bytes from var_ptr to host.
Part 1: Receive var_ptr and var_size from host. */
static void
__offload_target_tgt2host_p1 (OFFLOAD ofldt)
{
void *var_ptr = NULL;
size_t var_size = 0;
VarDesc vd[2] = { vd_host2tgt, vd_host2tgt };
vd[0].ptr = &var_ptr;
vd[0].size = sizeof (void *);
vd[1].ptr = &var_size;
vd[1].size = sizeof (var_size);
__offload_target_enter (ofldt, 2, vd, NULL);
TRACE ("(var_ptr = %p, var_size = %d)", var_ptr, var_size);
last_var_ptr = var_ptr;
last_var_size = var_size;
__offload_target_leave (ofldt);
}
/* Part 2: Send the data to host. */
static void
__offload_target_tgt2host_p2 (OFFLOAD ofldt)
{
TRACE ("(last_var_ptr = %p, last_var_size = %d)",
last_var_ptr, last_var_size);
VarDesc vd = vd_tgt2host;
vd.ptr = last_var_ptr;
vd.size = last_var_size;
__offload_target_enter (ofldt, 1, &vd, NULL);
__offload_target_leave (ofldt);
}
/* Copy SIZE bytes from SRC_PTR to DST_PTR. */
static void
__offload_target_tgt2tgt (OFFLOAD ofldt)
{
void *src_ptr = NULL;
void *dst_ptr = NULL;
size_t size = 0;
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);
__offload_target_enter (ofldt, 3, vd, NULL);
TRACE ("(dst_ptr = %p, src_ptr = %p, size = %d)", dst_ptr, src_ptr, size);
memcpy (dst_ptr, src_ptr, size);
__offload_target_leave (ofldt);
}
/* Call offload function by the address fn_ptr and pass vars_ptr to it. */
static void
__offload_target_run (OFFLOAD ofldt)
{
void *fn_ptr;
void *vars_ptr;
VarDesc vd[2] = { vd_host2tgt, vd_host2tgt };
vd[0].ptr = &fn_ptr;
vd[0].size = sizeof (void *);
vd[1].ptr = &vars_ptr;
vd[1].size = sizeof (void *);
__offload_target_enter (ofldt, 2, vd, NULL);
TRACE ("(fn_ptr = %p, vars_ptr = %p)", fn_ptr, vars_ptr);
void (*fn)(void *) = (void (*)(void *)) fn_ptr;
fn (vars_ptr);
__offload_target_leave (ofldt);
}
/* This should be called from every library with offloading. */
extern "C" void
target_register_lib (const void *target_table)
{
TRACE ("(target_table = %p { %p, %p, %p, %p })", target_table,
((void **) target_table)[0], ((void **) target_table)[1],
((void **) target_table)[2], ((void **) target_table)[3]);
last_loaded_library = (void *) target_table;
}
/* Use __offload_target_main from liboffload. */
int
main (int argc, char **argv)
{
__offload_target_main ();
return 0;
}
/* Register offload_target_main's functions in the liboffload. */
struct Entry {
const char *name;
void *func;
};
#define REGISTER(f) \
extern "C" const Entry __offload_target_##f##_$entry \
__attribute__ ((section(".OffloadEntryTable."))) = { \
"__offload_target_"#f, \
(void *) __offload_target_##f \
}
REGISTER (init_proc);
REGISTER (table_p1);
REGISTER (table_p2);
REGISTER (alloc);
REGISTER (free);
REGISTER (host2tgt_p1);
REGISTER (host2tgt_p2);
REGISTER (tgt2host_p1);
REGISTER (tgt2host_p2);
REGISTER (tgt2tgt);
REGISTER (run);
#undef REGISTER