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/* OpenACC Runtime initialization routines
Copyright (C) 2013-2015 Free Software Foundation, Inc.
Contributed by Mentor Embedded.
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/>. */
#include "openacc.h"
#include "config.h"
#include "libgomp.h"
#include "gomp-constants.h"
#include "oacc-int.h"
#include "splay-tree.h"
#include <stdint.h>
#include <assert.h>
/* Return block containing [H->S), or NULL if not contained. The device lock
for DEV must be locked on entry, and remains locked on exit. */
static splay_tree_key
lookup_host (struct gomp_device_descr *dev, void *h, size_t s)
{
struct splay_tree_key_s node;
splay_tree_key key;
node.host_start = (uintptr_t) h;
node.host_end = (uintptr_t) h + s;
key = splay_tree_lookup (&dev->mem_map, &node);
return key;
}
/* Return block containing [D->S), or NULL if not contained.
The list isn't ordered by device address, so we have to iterate
over the whole array. This is not expected to be a common
operation. The device lock associated with TGT must be locked on entry, and
remains locked on exit. */
static splay_tree_key
lookup_dev (struct target_mem_desc *tgt, void *d, size_t s)
{
int i;
struct target_mem_desc *t;
if (!tgt)
return NULL;
for (t = tgt; t != NULL; t = t->prev)
{
if (t->tgt_start <= (uintptr_t) d && t->tgt_end >= (uintptr_t) d + s)
break;
}
if (!t)
return NULL;
for (i = 0; i < t->list_count; i++)
{
void * offset;
splay_tree_key k = &t->array[i].key;
offset = d - t->tgt_start + k->tgt_offset;
if (k->host_start + offset <= (void *) k->host_end)
return k;
}
return NULL;
}
/* OpenACC is silent on how memory exhaustion is indicated. We return
NULL. */
void *
acc_malloc (size_t s)
{
if (!s)
return NULL;
goacc_lazy_initialize ();
struct goacc_thread *thr = goacc_thread ();
assert (thr->dev);
return thr->dev->alloc_func (thr->dev->target_id, s);
}
/* OpenACC 2.0a (3.2.16) doesn't specify what to do in the event
the device address is mapped. We choose to check if it mapped,
and if it is, to unmap it. */
void
acc_free (void *d)
{
splay_tree_key k;
if (!d)
return;
struct goacc_thread *thr = goacc_thread ();
assert (thr && thr->dev);
struct gomp_device_descr *acc_dev = thr->dev;
gomp_mutex_lock (&acc_dev->lock);
/* We don't have to call lazy open here, as the ptr value must have
been returned by acc_malloc. It's not permitted to pass NULL in
(unless you got that null from acc_malloc). */
if ((k = lookup_dev (acc_dev->openacc.data_environ, d, 1)))
{
void *offset;
offset = d - k->tgt->tgt_start + k->tgt_offset;
gomp_mutex_unlock (&acc_dev->lock);
acc_unmap_data ((void *)(k->host_start + offset));
}
else
gomp_mutex_unlock (&acc_dev->lock);
acc_dev->free_func (acc_dev->target_id, d);
}
void
acc_memcpy_to_device (void *d, void *h, size_t s)
{
/* No need to call lazy open here, as the device pointer must have
been obtained from a routine that did that. */
struct goacc_thread *thr = goacc_thread ();
assert (thr && thr->dev);
thr->dev->host2dev_func (thr->dev->target_id, d, h, s);
}
void
acc_memcpy_from_device (void *h, void *d, size_t s)
{
/* No need to call lazy open here, as the device pointer must have
been obtained from a routine that did that. */
struct goacc_thread *thr = goacc_thread ();
assert (thr && thr->dev);
thr->dev->dev2host_func (thr->dev->target_id, h, d, s);
}
/* Return the device pointer that corresponds to host data H. Or NULL
if no mapping. */
void *
acc_deviceptr (void *h)
{
splay_tree_key n;
void *d;
void *offset;
goacc_lazy_initialize ();
struct goacc_thread *thr = goacc_thread ();
struct gomp_device_descr *dev = thr->dev;
gomp_mutex_lock (&dev->lock);
n = lookup_host (dev, h, 1);
if (!n)
{
gomp_mutex_unlock (&dev->lock);
return NULL;
}
offset = h - n->host_start;
d = n->tgt->tgt_start + n->tgt_offset + offset;
gomp_mutex_unlock (&dev->lock);
return d;
}
/* Return the host pointer that corresponds to device data D. Or NULL
if no mapping. */
void *
acc_hostptr (void *d)
{
splay_tree_key n;
void *h;
void *offset;
goacc_lazy_initialize ();
struct goacc_thread *thr = goacc_thread ();
struct gomp_device_descr *acc_dev = thr->dev;
gomp_mutex_lock (&acc_dev->lock);
n = lookup_dev (acc_dev->openacc.data_environ, d, 1);
if (!n)
{
gomp_mutex_unlock (&acc_dev->lock);
return NULL;
}
offset = d - n->tgt->tgt_start + n->tgt_offset;
h = n->host_start + offset;
gomp_mutex_unlock (&acc_dev->lock);
return h;
}
/* Return 1 if host data [H,+S] is present on the device. */
int
acc_is_present (void *h, size_t s)
{
splay_tree_key n;
if (!s || !h)
return 0;
goacc_lazy_initialize ();
struct goacc_thread *thr = goacc_thread ();
struct gomp_device_descr *acc_dev = thr->dev;
gomp_mutex_lock (&acc_dev->lock);
n = lookup_host (acc_dev, h, s);
if (n && ((uintptr_t)h < n->host_start
|| (uintptr_t)h + s > n->host_end
|| s > n->host_end - n->host_start))
n = NULL;
gomp_mutex_unlock (&acc_dev->lock);
return n != NULL;
}
/* Create a mapping for host [H,+S] -> device [D,+S] */
void
acc_map_data (void *h, void *d, size_t s)
{
struct target_mem_desc *tgt;
size_t mapnum = 1;
void *hostaddrs = h;
void *devaddrs = d;
size_t sizes = s;
unsigned short kinds = GOMP_MAP_ALLOC;
goacc_lazy_initialize ();
struct goacc_thread *thr = goacc_thread ();
struct gomp_device_descr *acc_dev = thr->dev;
if (acc_dev->capabilities & GOMP_OFFLOAD_CAP_SHARED_MEM)
{
if (d != h)
gomp_fatal ("cannot map data on shared-memory system");
tgt = gomp_map_vars (NULL, 0, NULL, NULL, NULL, NULL, true, false);
}
else
{
struct goacc_thread *thr = goacc_thread ();
if (!d || !h || !s)
gomp_fatal ("[%p,+%d]->[%p,+%d] is a bad map",
(void *)h, (int)s, (void *)d, (int)s);
gomp_mutex_lock (&acc_dev->lock);
if (lookup_host (acc_dev, h, s))
{
gomp_mutex_unlock (&acc_dev->lock);
gomp_fatal ("host address [%p, +%d] is already mapped", (void *)h,
(int)s);
}
if (lookup_dev (thr->dev->openacc.data_environ, d, s))
{
gomp_mutex_unlock (&acc_dev->lock);
gomp_fatal ("device address [%p, +%d] is already mapped", (void *)d,
(int)s);
}
gomp_mutex_unlock (&acc_dev->lock);
tgt = gomp_map_vars (acc_dev, mapnum, &hostaddrs, &devaddrs, &sizes,
&kinds, true, false);
}
gomp_mutex_lock (&acc_dev->lock);
tgt->prev = acc_dev->openacc.data_environ;
acc_dev->openacc.data_environ = tgt;
gomp_mutex_unlock (&acc_dev->lock);
}
void
acc_unmap_data (void *h)
{
struct goacc_thread *thr = goacc_thread ();
struct gomp_device_descr *acc_dev = thr->dev;
/* No need to call lazy open, as the address must have been mapped. */
size_t host_size;
gomp_mutex_lock (&acc_dev->lock);
splay_tree_key n = lookup_host (acc_dev, h, 1);
struct target_mem_desc *t;
if (!n)
{
gomp_mutex_unlock (&acc_dev->lock);
gomp_fatal ("%p is not a mapped block", (void *)h);
}
host_size = n->host_end - n->host_start;
if (n->host_start != (uintptr_t) h)
{
gomp_mutex_unlock (&acc_dev->lock);
gomp_fatal ("[%p,%d] surrounds %p",
(void *) n->host_start, (int) host_size, (void *) h);
}
t = n->tgt;
if (t->refcount == 2)
{
struct target_mem_desc *tp;
/* This is the last reference, so pull the descriptor off the
chain. This avoids gomp_unmap_vars via gomp_unmap_tgt from
freeing the device memory. */
t->tgt_end = 0;
t->to_free = 0;
for (tp = NULL, t = acc_dev->openacc.data_environ; t != NULL;
tp = t, t = t->prev)
if (n->tgt == t)
{
if (tp)
tp->prev = t->prev;
else
acc_dev->openacc.data_environ = t->prev;
break;
}
}
gomp_mutex_unlock (&acc_dev->lock);
gomp_unmap_vars (t, true);
}
#define FLAG_PRESENT (1 << 0)
#define FLAG_CREATE (1 << 1)
#define FLAG_COPY (1 << 2)
static void *
present_create_copy (unsigned f, void *h, size_t s)
{
void *d;
splay_tree_key n;
if (!h || !s)
gomp_fatal ("[%p,+%d] is a bad range", (void *)h, (int)s);
goacc_lazy_initialize ();
struct goacc_thread *thr = goacc_thread ();
struct gomp_device_descr *acc_dev = thr->dev;
gomp_mutex_lock (&acc_dev->lock);
n = lookup_host (acc_dev, h, s);
if (n)
{
/* Present. */
d = (void *) (n->tgt->tgt_start + n->tgt_offset);
if (!(f & FLAG_PRESENT))
{
gomp_mutex_unlock (&acc_dev->lock);
gomp_fatal ("[%p,+%d] already mapped to [%p,+%d]",
(void *)h, (int)s, (void *)d, (int)s);
}
if ((h + s) > (void *)n->host_end)
{
gomp_mutex_unlock (&acc_dev->lock);
gomp_fatal ("[%p,+%d] not mapped", (void *)h, (int)s);
}
gomp_mutex_unlock (&acc_dev->lock);
}
else if (!(f & FLAG_CREATE))
{
gomp_mutex_unlock (&acc_dev->lock);
gomp_fatal ("[%p,+%d] not mapped", (void *)h, (int)s);
}
else
{
struct target_mem_desc *tgt;
size_t mapnum = 1;
unsigned short kinds;
void *hostaddrs = h;
if (f & FLAG_COPY)
kinds = GOMP_MAP_TO;
else
kinds = GOMP_MAP_ALLOC;
gomp_mutex_unlock (&acc_dev->lock);
tgt = gomp_map_vars (acc_dev, mapnum, &hostaddrs, NULL, &s, &kinds, true,
false);
gomp_mutex_lock (&acc_dev->lock);
d = tgt->to_free;
tgt->prev = acc_dev->openacc.data_environ;
acc_dev->openacc.data_environ = tgt;
gomp_mutex_unlock (&acc_dev->lock);
}
return d;
}
void *
acc_create (void *h, size_t s)
{
return present_create_copy (FLAG_CREATE, h, s);
}
void *
acc_copyin (void *h, size_t s)
{
return present_create_copy (FLAG_CREATE | FLAG_COPY, h, s);
}
void *
acc_present_or_create (void *h, size_t s)
{
return present_create_copy (FLAG_PRESENT | FLAG_CREATE, h, s);
}
void *
acc_present_or_copyin (void *h, size_t s)
{
return present_create_copy (FLAG_PRESENT | FLAG_CREATE | FLAG_COPY, h, s);
}
#define FLAG_COPYOUT (1 << 0)
static void
delete_copyout (unsigned f, void *h, size_t s)
{
size_t host_size;
splay_tree_key n;
void *d;
struct goacc_thread *thr = goacc_thread ();
struct gomp_device_descr *acc_dev = thr->dev;
gomp_mutex_lock (&acc_dev->lock);
n = lookup_host (acc_dev, h, s);
/* No need to call lazy open, as the data must already have been
mapped. */
if (!n)
{
gomp_mutex_unlock (&acc_dev->lock);
gomp_fatal ("[%p,%d] is not mapped", (void *)h, (int)s);
}
d = (void *) (n->tgt->tgt_start + n->tgt_offset);
host_size = n->host_end - n->host_start;
if (n->host_start != (uintptr_t) h || host_size != s)
{
gomp_mutex_unlock (&acc_dev->lock);
gomp_fatal ("[%p,%d] surrounds2 [%p,+%d]",
(void *) n->host_start, (int) host_size, (void *) h, (int) s);
}
gomp_mutex_unlock (&acc_dev->lock);
if (f & FLAG_COPYOUT)
acc_dev->dev2host_func (acc_dev->target_id, h, d, s);
acc_unmap_data (h);
acc_dev->free_func (acc_dev->target_id, d);
}
void
acc_delete (void *h , size_t s)
{
delete_copyout (0, h, s);
}
void acc_copyout (void *h, size_t s)
{
delete_copyout (FLAG_COPYOUT, h, s);
}
static void
update_dev_host (int is_dev, void *h, size_t s)
{
splay_tree_key n;
void *d;
struct goacc_thread *thr = goacc_thread ();
struct gomp_device_descr *acc_dev = thr->dev;
gomp_mutex_lock (&acc_dev->lock);
n = lookup_host (acc_dev, h, s);
/* No need to call lazy open, as the data must already have been
mapped. */
if (!n)
{
gomp_mutex_unlock (&acc_dev->lock);
gomp_fatal ("[%p,%d] is not mapped", h, (int)s);
}
d = (void *) (n->tgt->tgt_start + n->tgt_offset);
gomp_mutex_unlock (&acc_dev->lock);
if (is_dev)
acc_dev->host2dev_func (acc_dev->target_id, d, h, s);
else
acc_dev->dev2host_func (acc_dev->target_id, h, d, s);
}
void
acc_update_device (void *h, size_t s)
{
update_dev_host (1, h, s);
}
void
acc_update_self (void *h, size_t s)
{
update_dev_host (0, h, s);
}
void
gomp_acc_insert_pointer (size_t mapnum, void **hostaddrs, size_t *sizes,
void *kinds)
{
struct target_mem_desc *tgt;
struct goacc_thread *thr = goacc_thread ();
struct gomp_device_descr *acc_dev = thr->dev;
gomp_debug (0, " %s: prepare mappings\n", __FUNCTION__);
tgt = gomp_map_vars (acc_dev, mapnum, hostaddrs,
NULL, sizes, kinds, true, false);
gomp_debug (0, " %s: mappings prepared\n", __FUNCTION__);
gomp_mutex_lock (&acc_dev->lock);
tgt->prev = acc_dev->openacc.data_environ;
acc_dev->openacc.data_environ = tgt;
gomp_mutex_unlock (&acc_dev->lock);
}
void
gomp_acc_remove_pointer (void *h, bool force_copyfrom, int async, int mapnum)
{
struct goacc_thread *thr = goacc_thread ();
struct gomp_device_descr *acc_dev = thr->dev;
splay_tree_key n;
struct target_mem_desc *t;
int minrefs = (mapnum == 1) ? 2 : 3;
gomp_mutex_lock (&acc_dev->lock);
n = lookup_host (acc_dev, h, 1);
if (!n)
{
gomp_mutex_unlock (&acc_dev->lock);
gomp_fatal ("%p is not a mapped block", (void *)h);
}
gomp_debug (0, " %s: restore mappings\n", __FUNCTION__);
t = n->tgt;
struct target_mem_desc *tp;
if (t->refcount == minrefs)
{
/* This is the last reference, so pull the descriptor off the
chain. This avoids gomp_unmap_vars via gomp_unmap_tgt from
freeing the device memory. */
t->tgt_end = 0;
t->to_free = 0;
for (tp = NULL, t = acc_dev->openacc.data_environ; t != NULL;
tp = t, t = t->prev)
{
if (n->tgt == t)
{
if (tp)
tp->prev = t->prev;
else
acc_dev->openacc.data_environ = t->prev;
break;
}
}
}
if (force_copyfrom)
t->list[0]->copy_from = 1;
gomp_mutex_unlock (&acc_dev->lock);
/* If running synchronously, unmap immediately. */
if (async < acc_async_noval)
gomp_unmap_vars (t, true);
else
{
gomp_copy_from_async (t);
acc_dev->openacc.register_async_cleanup_func (t);
}
gomp_debug (0, " %s: mappings restored\n", __FUNCTION__);
}
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