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|
/*
* Copyright © 2009 Corbin Simpson
* Copyright © 2011 Marek Olšák <maraeo@gmail.com>
* All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sub license, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS
* AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
* USE OR OTHER DEALINGS IN THE SOFTWARE.
*
* The above copyright notice and this permission notice (including the
* next paragraph) shall be included in all copies or substantial portions
* of the Software.
*/
/*
* Authors:
* Corbin Simpson <MostAwesomeDude@gmail.com>
* Joakim Sindholt <opensource@zhasha.com>
* Marek Olšák <maraeo@gmail.com>
*/
#include "radeon_drm_bo.h"
#include "radeon_drm_cs.h"
#include "radeon_drm_public.h"
#include "pipebuffer/pb_bufmgr.h"
#include "util/u_memory.h"
#include "util/u_hash_table.h"
#include <xf86drm.h>
#include <stdio.h>
/*
* this are copy from radeon_drm, once an updated libdrm is released
* we should bump configure.ac requirement for it and remove the following
* field
*/
#ifndef RADEON_INFO_TILING_CONFIG
#define RADEON_INFO_TILING_CONFIG 6
#endif
#ifndef RADEON_INFO_WANT_HYPERZ
#define RADEON_INFO_WANT_HYPERZ 7
#endif
#ifndef RADEON_INFO_WANT_CMASK
#define RADEON_INFO_WANT_CMASK 8
#endif
#ifndef RADEON_INFO_CLOCK_CRYSTAL_FREQ
#define RADEON_INFO_CLOCK_CRYSTAL_FREQ 9
#endif
#ifndef RADEON_INFO_NUM_BACKENDS
#define RADEON_INFO_NUM_BACKENDS 0xa
#endif
#ifndef RADEON_INFO_NUM_TILE_PIPES
#define RADEON_INFO_NUM_TILE_PIPES 0xb
#endif
#ifndef RADEON_INFO_BACKEND_MAP
#define RADEON_INFO_BACKEND_MAP 0xd
#endif
#ifndef RADEON_INFO_VA_START
/* virtual address start, va < start are reserved by the kernel */
#define RADEON_INFO_VA_START 0x0e
/* maximum size of ib using the virtual memory cs */
#define RADEON_INFO_IB_VM_MAX_SIZE 0x0f
#endif
#ifndef RADEON_INFO_MAX_PIPES
#define RADEON_INFO_MAX_PIPES 0x10
#endif
#ifndef RADEON_INFO_TIMESTAMP
#define RADEON_INFO_TIMESTAMP 0x11
#endif
#ifndef RADEON_INFO_RING_WORKING
#define RADEON_INFO_RING_WORKING 0x15
#endif
#ifndef RADEON_CS_RING_UVD
#define RADEON_CS_RING_UVD 3
#endif
static struct util_hash_table *fd_tab = NULL;
/* Enable/disable feature access for one command stream.
* If enable == TRUE, return TRUE on success.
* Otherwise, return FALSE.
*
* We basically do the same thing kernel does, because we have to deal
* with multiple contexts (here command streams) backed by one winsys. */
static boolean radeon_set_fd_access(struct radeon_drm_cs *applier,
struct radeon_drm_cs **owner,
pipe_mutex *mutex,
unsigned request, const char *request_name,
boolean enable)
{
struct drm_radeon_info info;
unsigned value = enable ? 1 : 0;
memset(&info, 0, sizeof(info));
pipe_mutex_lock(*mutex);
/* Early exit if we are sure the request will fail. */
if (enable) {
if (*owner) {
pipe_mutex_unlock(*mutex);
return FALSE;
}
} else {
if (*owner != applier) {
pipe_mutex_unlock(*mutex);
return FALSE;
}
}
/* Pass through the request to the kernel. */
info.value = (unsigned long)&value;
info.request = request;
if (drmCommandWriteRead(applier->ws->fd, DRM_RADEON_INFO,
&info, sizeof(info)) != 0) {
pipe_mutex_unlock(*mutex);
return FALSE;
}
/* Update the rights in the winsys. */
if (enable) {
if (value) {
*owner = applier;
printf("radeon: Acquired access to %s.\n", request_name);
pipe_mutex_unlock(*mutex);
return TRUE;
}
} else {
*owner = NULL;
printf("radeon: Released access to %s.\n", request_name);
}
pipe_mutex_unlock(*mutex);
return FALSE;
}
static boolean radeon_get_drm_value(int fd, unsigned request,
const char *errname, uint32_t *out)
{
struct drm_radeon_info info;
int retval;
memset(&info, 0, sizeof(info));
info.value = (unsigned long)out;
info.request = request;
retval = drmCommandWriteRead(fd, DRM_RADEON_INFO, &info, sizeof(info));
if (retval) {
if (errname) {
fprintf(stderr, "radeon: Failed to get %s, error number %d\n",
errname, retval);
}
return FALSE;
}
return TRUE;
}
/* Helper function to do the ioctls needed for setup and init. */
static boolean do_winsys_init(struct radeon_drm_winsys *ws)
{
struct drm_radeon_gem_info gem_info;
int retval;
drmVersionPtr version;
memset(&gem_info, 0, sizeof(gem_info));
/* We do things in a specific order here.
*
* DRM version first. We need to be sure we're running on a KMS chipset.
* This is also for some features.
*
* Then, the PCI ID. This is essential and should return usable numbers
* for all Radeons. If this fails, we probably got handed an FD for some
* non-Radeon card.
*
* The GEM info is actually bogus on the kernel side, as well as our side
* (see radeon_gem_info_ioctl in radeon_gem.c) but that's alright because
* we don't actually use the info for anything yet.
*
* The GB and Z pipe requests should always succeed, but they might not
* return sensical values for all chipsets, but that's alright because
* the pipe drivers already know that.
*/
/* Get DRM version. */
version = drmGetVersion(ws->fd);
if (version->version_major != 2 ||
version->version_minor < 3) {
fprintf(stderr, "%s: DRM version is %d.%d.%d but this driver is "
"only compatible with 2.3.x (kernel 2.6.34) or later.\n",
__FUNCTION__,
version->version_major,
version->version_minor,
version->version_patchlevel);
drmFreeVersion(version);
return FALSE;
}
ws->info.drm_major = version->version_major;
ws->info.drm_minor = version->version_minor;
ws->info.drm_patchlevel = version->version_patchlevel;
drmFreeVersion(version);
/* Get PCI ID. */
if (!radeon_get_drm_value(ws->fd, RADEON_INFO_DEVICE_ID, "PCI ID",
&ws->info.pci_id))
return FALSE;
/* Check PCI ID. */
switch (ws->info.pci_id) {
#define CHIPSET(pci_id, name, cfamily) case pci_id: ws->info.family = CHIP_##cfamily; ws->gen = DRV_R300; break;
#include "pci_ids/r300_pci_ids.h"
#undef CHIPSET
#define CHIPSET(pci_id, name, cfamily) case pci_id: ws->info.family = CHIP_##cfamily; ws->gen = DRV_R600; break;
#include "pci_ids/r600_pci_ids.h"
#undef CHIPSET
#define CHIPSET(pci_id, name, cfamily) case pci_id: ws->info.family = CHIP_##cfamily; ws->gen = DRV_SI; break;
#include "pci_ids/radeonsi_pci_ids.h"
#undef CHIPSET
default:
fprintf(stderr, "radeon: Invalid PCI ID.\n");
return FALSE;
}
switch (ws->info.family) {
default:
case CHIP_UNKNOWN:
fprintf(stderr, "radeon: Unknown family.\n");
return FALSE;
case CHIP_R300:
case CHIP_R350:
case CHIP_RV350:
case CHIP_RV370:
case CHIP_RV380:
case CHIP_RS400:
case CHIP_RC410:
case CHIP_RS480:
ws->info.chip_class = R300;
break;
case CHIP_R420: /* R4xx-based cores. */
case CHIP_R423:
case CHIP_R430:
case CHIP_R480:
case CHIP_R481:
case CHIP_RV410:
case CHIP_RS600:
case CHIP_RS690:
case CHIP_RS740:
ws->info.chip_class = R400;
break;
case CHIP_RV515: /* R5xx-based cores. */
case CHIP_R520:
case CHIP_RV530:
case CHIP_R580:
case CHIP_RV560:
case CHIP_RV570:
ws->info.chip_class = R500;
break;
case CHIP_R600:
case CHIP_RV610:
case CHIP_RV630:
case CHIP_RV670:
case CHIP_RV620:
case CHIP_RV635:
case CHIP_RS780:
case CHIP_RS880:
ws->info.chip_class = R600;
break;
case CHIP_RV770:
case CHIP_RV730:
case CHIP_RV710:
case CHIP_RV740:
ws->info.chip_class = R700;
break;
case CHIP_CEDAR:
case CHIP_REDWOOD:
case CHIP_JUNIPER:
case CHIP_CYPRESS:
case CHIP_HEMLOCK:
case CHIP_PALM:
case CHIP_SUMO:
case CHIP_SUMO2:
case CHIP_BARTS:
case CHIP_TURKS:
case CHIP_CAICOS:
ws->info.chip_class = EVERGREEN;
break;
case CHIP_CAYMAN:
case CHIP_ARUBA:
ws->info.chip_class = CAYMAN;
break;
case CHIP_TAHITI:
case CHIP_PITCAIRN:
case CHIP_VERDE:
case CHIP_OLAND:
case CHIP_HAINAN:
ws->info.chip_class = SI;
break;
}
/* Check for dma */
ws->info.r600_has_dma = FALSE;
if (ws->info.chip_class >= R700 && ws->info.drm_minor >= 27) {
ws->info.r600_has_dma = TRUE;
}
/* Check for UVD */
ws->info.has_uvd = FALSE;
if (ws->info.drm_minor >= 32) {
uint32_t value = RADEON_CS_RING_UVD;
if (radeon_get_drm_value(ws->fd, RADEON_INFO_RING_WORKING,
"UVD Ring working", &value))
ws->info.has_uvd = value;
}
/* Get GEM info. */
retval = drmCommandWriteRead(ws->fd, DRM_RADEON_GEM_INFO,
&gem_info, sizeof(gem_info));
if (retval) {
fprintf(stderr, "radeon: Failed to get MM info, error number %d\n",
retval);
return FALSE;
}
ws->info.gart_size = gem_info.gart_size;
ws->info.vram_size = gem_info.vram_size;
ws->num_cpus = sysconf(_SC_NPROCESSORS_ONLN);
/* Generation-specific queries. */
if (ws->gen == DRV_R300) {
if (!radeon_get_drm_value(ws->fd, RADEON_INFO_NUM_GB_PIPES,
"GB pipe count",
&ws->info.r300_num_gb_pipes))
return FALSE;
if (!radeon_get_drm_value(ws->fd, RADEON_INFO_NUM_Z_PIPES,
"Z pipe count",
&ws->info.r300_num_z_pipes))
return FALSE;
}
else if (ws->gen >= DRV_R600) {
if (ws->info.drm_minor >= 9 &&
!radeon_get_drm_value(ws->fd, RADEON_INFO_NUM_BACKENDS,
"num backends",
&ws->info.r600_num_backends))
return FALSE;
/* get the GPU counter frequency, failure is not fatal */
radeon_get_drm_value(ws->fd, RADEON_INFO_CLOCK_CRYSTAL_FREQ, NULL,
&ws->info.r600_clock_crystal_freq);
radeon_get_drm_value(ws->fd, RADEON_INFO_TILING_CONFIG, NULL,
&ws->info.r600_tiling_config);
if (ws->info.drm_minor >= 11) {
radeon_get_drm_value(ws->fd, RADEON_INFO_NUM_TILE_PIPES, NULL,
&ws->info.r600_num_tile_pipes);
if (radeon_get_drm_value(ws->fd, RADEON_INFO_BACKEND_MAP, NULL,
&ws->info.r600_backend_map))
ws->info.r600_backend_map_valid = TRUE;
}
ws->info.r600_virtual_address = FALSE;
if (ws->info.drm_minor >= 13) {
ws->info.r600_virtual_address = TRUE;
if (!radeon_get_drm_value(ws->fd, RADEON_INFO_VA_START, NULL,
&ws->info.r600_va_start))
ws->info.r600_virtual_address = FALSE;
if (!radeon_get_drm_value(ws->fd, RADEON_INFO_IB_VM_MAX_SIZE, NULL,
&ws->info.r600_ib_vm_max_size))
ws->info.r600_virtual_address = FALSE;
}
if (ws->gen == DRV_R600 && !debug_get_bool_option("RADEON_VA", TRUE))
ws->info.r600_virtual_address = FALSE;
}
/* Get max pipes, this is only needed for compute shaders. All evergreen+
* chips have at least 2 pipes, so we use 2 as a default. */
ws->info.r600_max_pipes = 2;
radeon_get_drm_value(ws->fd, RADEON_INFO_MAX_PIPES, NULL,
&ws->info.r600_max_pipes);
return TRUE;
}
static void radeon_winsys_destroy(struct radeon_winsys *rws)
{
struct radeon_drm_winsys *ws = (struct radeon_drm_winsys*)rws;
if (ws->thread) {
ws->kill_thread = 1;
pipe_semaphore_signal(&ws->cs_queued);
pipe_thread_wait(ws->thread);
}
pipe_semaphore_destroy(&ws->cs_queued);
pipe_condvar_destroy(ws->cs_queue_empty);
if (!pipe_reference(&ws->base.reference, NULL)) {
return;
}
pipe_mutex_destroy(ws->hyperz_owner_mutex);
pipe_mutex_destroy(ws->cmask_owner_mutex);
pipe_mutex_destroy(ws->cs_stack_lock);
ws->cman->destroy(ws->cman);
ws->kman->destroy(ws->kman);
if (ws->gen >= DRV_R600) {
radeon_surface_manager_free(ws->surf_man);
}
if (fd_tab) {
util_hash_table_remove(fd_tab, intptr_to_pointer(ws->fd));
}
FREE(rws);
}
static void radeon_query_info(struct radeon_winsys *rws,
struct radeon_info *info)
{
*info = ((struct radeon_drm_winsys *)rws)->info;
}
static boolean radeon_cs_request_feature(struct radeon_winsys_cs *rcs,
enum radeon_feature_id fid,
boolean enable)
{
struct radeon_drm_cs *cs = radeon_drm_cs(rcs);
switch (fid) {
case RADEON_FID_R300_HYPERZ_ACCESS:
return radeon_set_fd_access(cs, &cs->ws->hyperz_owner,
&cs->ws->hyperz_owner_mutex,
RADEON_INFO_WANT_HYPERZ, "Hyper-Z",
enable);
case RADEON_FID_R300_CMASK_ACCESS:
return radeon_set_fd_access(cs, &cs->ws->cmask_owner,
&cs->ws->cmask_owner_mutex,
RADEON_INFO_WANT_CMASK, "AA optimizations",
enable);
}
return FALSE;
}
static int radeon_drm_winsys_surface_init(struct radeon_winsys *rws,
struct radeon_surface *surf)
{
struct radeon_drm_winsys *ws = (struct radeon_drm_winsys*)rws;
return radeon_surface_init(ws->surf_man, surf);
}
static int radeon_drm_winsys_surface_best(struct radeon_winsys *rws,
struct radeon_surface *surf)
{
struct radeon_drm_winsys *ws = (struct radeon_drm_winsys*)rws;
return radeon_surface_best(ws->surf_man, surf);
}
static uint64_t radeon_query_value(struct radeon_winsys *rws,
enum radeon_value_id value)
{
struct radeon_drm_winsys *ws = (struct radeon_drm_winsys*)rws;
uint64_t ts = 0;
switch (value) {
case RADEON_REQUESTED_VRAM_MEMORY:
return ws->allocated_vram;
case RADEON_REQUESTED_GTT_MEMORY:
return ws->allocated_gtt;
case RADEON_BUFFER_WAIT_TIME_NS:
return ws->buffer_wait_time;
case RADEON_TIMESTAMP:
if (ws->info.drm_minor < 20 || ws->gen < DRV_R600) {
assert(0);
return 0;
}
radeon_get_drm_value(ws->fd, RADEON_INFO_TIMESTAMP, "timestamp",
(uint32_t*)&ts);
return ts;
}
return 0;
}
static unsigned hash_fd(void *key)
{
return pointer_to_intptr(key);
}
static int compare_fd(void *key1, void *key2)
{
return pointer_to_intptr(key1) != pointer_to_intptr(key2);
}
void radeon_drm_ws_queue_cs(struct radeon_drm_winsys *ws, struct radeon_drm_cs *cs)
{
retry:
pipe_mutex_lock(ws->cs_stack_lock);
if (p_atomic_read(&ws->ncs) >= RING_LAST) {
/* no room left for a flush */
pipe_mutex_unlock(ws->cs_stack_lock);
goto retry;
}
ws->cs_stack[p_atomic_read(&ws->ncs)] = cs;
p_atomic_inc(&ws->ncs);
pipe_mutex_unlock(ws->cs_stack_lock);
pipe_semaphore_signal(&ws->cs_queued);
}
static PIPE_THREAD_ROUTINE(radeon_drm_cs_emit_ioctl, param)
{
struct radeon_drm_winsys *ws = (struct radeon_drm_winsys *)param;
struct radeon_drm_cs *cs;
unsigned i, empty_stack;
while (1) {
pipe_semaphore_wait(&ws->cs_queued);
if (ws->kill_thread)
break;
next:
pipe_mutex_lock(ws->cs_stack_lock);
cs = ws->cs_stack[0];
pipe_mutex_unlock(ws->cs_stack_lock);
if (cs) {
radeon_drm_cs_emit_ioctl_oneshot(cs, cs->cst);
pipe_mutex_lock(ws->cs_stack_lock);
for (i = 1; i < p_atomic_read(&ws->ncs); i++) {
ws->cs_stack[i - 1] = ws->cs_stack[i];
}
ws->cs_stack[p_atomic_read(&ws->ncs) - 1] = NULL;
empty_stack = p_atomic_dec_zero(&ws->ncs);
if (empty_stack) {
pipe_condvar_signal(ws->cs_queue_empty);
}
pipe_mutex_unlock(ws->cs_stack_lock);
pipe_semaphore_signal(&cs->flush_completed);
if (!empty_stack) {
goto next;
}
}
}
pipe_mutex_lock(ws->cs_stack_lock);
for (i = 0; i < p_atomic_read(&ws->ncs); i++) {
pipe_semaphore_signal(&ws->cs_stack[i]->flush_completed);
ws->cs_stack[i] = NULL;
}
p_atomic_set(&ws->ncs, 0);
pipe_condvar_signal(ws->cs_queue_empty);
pipe_mutex_unlock(ws->cs_stack_lock);
return NULL;
}
DEBUG_GET_ONCE_BOOL_OPTION(thread, "RADEON_THREAD", TRUE)
static PIPE_THREAD_ROUTINE(radeon_drm_cs_emit_ioctl, param);
struct radeon_winsys *radeon_drm_winsys_create(int fd)
{
struct radeon_drm_winsys *ws;
if (!fd_tab) {
fd_tab = util_hash_table_create(hash_fd, compare_fd);
}
ws = util_hash_table_get(fd_tab, intptr_to_pointer(fd));
if (ws) {
pipe_reference(NULL, &ws->base.reference);
return &ws->base;
}
ws = CALLOC_STRUCT(radeon_drm_winsys);
if (!ws) {
return NULL;
}
ws->fd = fd;
util_hash_table_set(fd_tab, intptr_to_pointer(fd), ws);
if (!do_winsys_init(ws))
goto fail;
/* Create managers. */
ws->kman = radeon_bomgr_create(ws);
if (!ws->kman)
goto fail;
ws->cman = pb_cache_manager_create(ws->kman, 1000000);
if (!ws->cman)
goto fail;
if (ws->gen >= DRV_R600) {
ws->surf_man = radeon_surface_manager_new(fd);
if (!ws->surf_man)
goto fail;
}
/* init reference */
pipe_reference_init(&ws->base.reference, 1);
/* Set functions. */
ws->base.destroy = radeon_winsys_destroy;
ws->base.query_info = radeon_query_info;
ws->base.cs_request_feature = radeon_cs_request_feature;
ws->base.surface_init = radeon_drm_winsys_surface_init;
ws->base.surface_best = radeon_drm_winsys_surface_best;
ws->base.query_value = radeon_query_value;
radeon_bomgr_init_functions(ws);
radeon_drm_cs_init_functions(ws);
pipe_mutex_init(ws->hyperz_owner_mutex);
pipe_mutex_init(ws->cmask_owner_mutex);
pipe_mutex_init(ws->cs_stack_lock);
p_atomic_set(&ws->ncs, 0);
pipe_semaphore_init(&ws->cs_queued, 0);
pipe_condvar_init(ws->cs_queue_empty);
if (ws->num_cpus > 1 && debug_get_option_thread())
ws->thread = pipe_thread_create(radeon_drm_cs_emit_ioctl, ws);
return &ws->base;
fail:
if (ws->cman)
ws->cman->destroy(ws->cman);
if (ws->kman)
ws->kman->destroy(ws->kman);
if (ws->surf_man)
radeon_surface_manager_free(ws->surf_man);
FREE(ws);
return NULL;
}
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